CURRICULUM VITAE - UNAM

.Cecilia NoguezCURRICULUM VITAE9 de noviembre de 2013

2ContentsI. Generales 1II. Campo de especialidad 1III. Formación Académica 1IV. Premios, Distinciones y Becas Académicas 2A. Premios y distinciones académicas 2B. Otros reconocimientos académicos 3C. SNI y Programa de estímulos académicos UNAM (PRIDE) 3D. Becas 3V. Conferencias, Seminarios y Trabajos en congresos (235) 3A. Seminarios y conferencias por invitación (118) 31. Pláticas invitadas internacionales (56) 32. Pláticas invitadas nacionales (39) 63. Mesas redondas y de discusión (5) 74. Pláticas de divulgación (17) 7B. Otros trabajos en congresos nacionales e internacionales (117) 8VI. Experiencia Profesional 8A. Puestos académicos en investigación 8B. Puestos académicos en docencia 9C. Participación en órganos colegiados en la UNAM 9D. Participación en órganos colegiados nacionales e internacionales 9E. Organización de reuniones científicas nacionales e internacionales 10F. Colaboración en agencias de apoyo a la investigación científica como árbitro regular 10G. Trabajo editorial 10H. Arbitro regular de las siguientes revistas internacionales (50+) 10VII. Membresias en sociedades científicas 11VIII. Proyectos de investigación financiados (16) 11A. Responsable (12) $ 6,713,023.00 11B. Corresponsable (4) $1,941,455.00 12IX. Formación de recursos humanos 12A. Cursos Docentes (48) 12B. Dirección de tesis terminadas (11) 13C. Asesoría a Posdoctorantes (4) 15D. Dirección de tesis en proceso (4) 15E. Participación en exámenes de grado como sinodal (29) 15F. Participación en exámenes generales y predoctorales (6) 16X. Publicaciones (83) 17A. Tabla informativa de publicaciones, incluyendo invitaciones y parámetro de impacto 17B. Portadas en revistas y libros de circulación internacional (4) 18C. Publicaciones en revistas periódicas con estricto arbitraje (59) 181. Artículos en revistas de circulación internacional (53) 182. Artículos en revistas de circulación nacional o local (4) 213. Nota editorial en revistas de circulación internacional (2) 22D. Capítulos en libros (5) 22E. Artículos de divulgación (1) 22F. Memorias en extenso con arbitraje de circulación internacional (12) 22G. Memorias en extenso en español (6) 23XI. Citas a trabajos publicados capturadas en el CV (2007) 24

XII. Citas capturadas (2007) 25A. Citas sin autocitas (1845) 25B. Autocitas (162) 86XIII. Relación de presentaciones orales y en posters (235) 92A. Por invitación (118) se encuentran en la sección V. 92B. Presentaciones orales en congresos (69) 92C. Presentaciones en carteles (48) 943

Ana Cecilia Noguez GarridoCURRICULUM VITAE1I. GENERALESPARTICULARESLugar y fecha de nacimiento: México D.F., 17 de julio de 1966Nacionalidad:MexicanaLABORALESPuesto:Investigadora Titular “C” T.C. DefinitivaSistema Nacional de Investigadores: Investigadora Nacional Nivel IIIPrograma de desempeño:PRIDE Nivel DDomicilio Profesional:Instituto de FísicaUniversidad Nacional Autónoma de MéxicoApartado Postal 20-364, México D. F. 01000, MÉXICOTeléfono: ++52–55–5622–5106Fax: ++52–55–6616–1535E-mail:cecilia@fisica.unam.mxPágina Web:http://www.fisica.unam.mx/ceciliaII.CAMPO DE ESPECIALIDADDisciplina:Subdisciplina:Especialidad:Temas de Investigación:Física teórica y computacionalEstado sólido, NanocienciaPropiedades atómicas, ópticas y electrónicas de la materiaPlasmónicaQuiralidad a escala nanométricaFuerzas dispersivasSuperficiesMedio efectivoDesarrollo de software científicoIII.FORMACIÓN ACADÉMICA1995–1996 POSDOCTORADO: Posdoctoral Research AssistantInstitución:Ohio UniversityAsesores:Dr. Sergio E. Ulloa y Dr. Davild A. DraboldTema de investigación: Cálculos ab initio de propiedades ópticas de clusters ysuperficies1993–1995 DOCTORADO: Doctora en Ciencias (Física)Institución:Facultad de Ciencias, UNAMTítulo de tesis:Propiedades ópticas de sistemas inhomogéneos de bajadimensionalidadFecha de examen: 13 de julio de 1995Asesores:Dr. Rubén G. Barrera (IFUNAM)Dr. Rodolfo Del Sole (Univ. de Roma II)1990–1993 MAESTRÍA: Maestra en Ciencias (Física)Institución:Facultad de Ciencias, UNAMExamen:General de ConocimientosFecha de examen: 22 de enero de 1993Asesor:Dr. Rubén G. Barrera (IFUNAM)

1985–1990 LICENCIATURA: FísicaInstitución:Facultad de Ciencia, UNAMTítulo de tesis:La respuesta dieléctrica de medios compuestos: un nuevoenfoqueFecha de examen: 30 de mayo de 1990Asesor:Dr. Rubén G. Barrera (IFUNAM)Cursos especializados:08/1996 Univ. Chicago (Urbana) Computational Material Science07/1992 School “Enrico Fermi” Perspectives in Many-Particle Physics07/1991 Scottish Summer Schools Physics of Nanostructures01/1990 Sociedad Mexicana de Física XI Reunión de Invierno de Física Estadística10/1989 Fac. Ciencias y DGAPA UNAM Hydrodynamics of Suspensions08/1989 Sociedad Mexicana de Física V Escuela Mexicana de Física Estadística2IV.PREMIOS, DISTINCIONES Y BECAS ACADÉMICASA. Premios y distinciones académicas2012 Reconocimiento Sor Juana Inés de la Cruz, UNAM2010 Premio Ciudad Capital: Heberto Castillo Martínez, Edición ”Bicentenario de la Independencia y Centenariode la Revolución en la Ciudad de México”, Premio para científicas mexicanas destacadas,otorgado por el Gobierno del Distrito Federal en colaboración con la Academia Mexicana de Cienciaspara Científicas de 45 años o menos2009 Premio de Investigación en el área de Ciencias Exactas otorgado por la Academia Mexicana de Ciencias2009 Premio Thomson Reuters al artículo mexicano mas citado en química. Estos premios reconocen alos autores líderes de trabajos desarrollados en México que han sido más citados en su categoría deinvestigación original en los últimos diez años2008 Reconocimiento a la dirección de la mejor tesis doctoral en Ciencia e Ingeniería de Materiales delcertamen internacional IIM-UNAM de la alumna Ana Lilia González Ronquillo2008 Premio Weizmann en Ciencias Exactas a la alumna de doctorado Ana Lilia González Ronquillo a lamejor tesis doctoral otorgado por la Academia Mexicana de Ciencias2006 Reconocimiento a la dirección de la mejor tesis doctoral en Ciencia e Ingeniería de Materiales delcertamen internacional IIM-UNAM de la alumna Xóchitl López Lozano2006 Reconocimiento ”Distinción Universidad Nacional para Jóvenes Académicos” en el área de CienciasExactas 2006, UNAM1999 Miembro regular de la Academia Mexicana de Ciencias (AMC)1999 Premio del Fondo “Ricardo J. Zevada” a proyectos de investigación en Ciencias Exactas a JóvenesCientíficos 1999-20001997 El trabajo Theoretical and experimental optical spectroscopy study of hydrogen adsorption at Si(111)-7×7, por Cecilia Noguez, et al., Physical Review Letters 76, 4923 – 4926 (1996), fue seleccionado porel Instituto Nacional de Física de la Materia (INFM) de Italia como trabajo de excelencia1996 Premio Weizmann en Ciencias Exactas a la mejor tesis doctoral otorgado por la Academia Mexicanade Ciencias1996 Medalla Gabino Barreda del Doctorado en Ciencias (Física), UNAM

3B. Otros reconocimientos académicos2012 El artículo Surface Plasmons on Metal Nanoparticles: The Influence of Shape and Physical Environment,Cecilia Noguez, Journal of Physical Chemistry C (Feature Article) 111 (10) 3806 – 3819(2007), está dentro de los cinco artículos más citados de la revista hasta diciembre 20122012 El artículo Plasmonic Optical Properties and Applications of Metal Nanostructures, Jin Z. Zhang,Cecilia Noguez, Plasmonics 4, 127 – 150 (2008), esta dentro de los cinco artículos más citado de larevista hasta diciembre 20122011 Nominada al premio The Ernesto Illy Trieste Science Prize de la TWAS por Northwestern Universityy la UNAM2010 El artículo Optical Properties of Isolated and Supported Metal Nanoparticles, Cecilia Noguez, enel Optical Materials 27, 1204 – 1211 (2005), fue el segundo artículo más citado de la revista desde supublicación hasta diciembre de 2010C. SNI y Programa de estímulos académicos UNAM (PRIDE)2011 – 2015 PRIDE Nivel D (máximo) 2011 – 2015 Investigadora Nacional Nivel III (máximo)2006 – 2010 PRIDE Nivel D 2006 – 2010 Investigadora Nacional Nivel II2003 – 2006 PRIDE Nivel C 2002 – 2006 Investigadora Nacional Nivel II1999 – 2003 PRIDE Nivel C 1996 – 2002 Investigadora Nacional Nivel I1996 – 1999 PRIDE Nivel B 1994 – 1996 Candidato a Investigador Nacional1995 – 1996 PAIPA Nivel B 1991 – 1993 Ayudante de Inv. Nacional IIID. Becas07–10/2000 Estancia de verano Fundación México - Estados Unidos para la Ciencia y la AcademiaMexicana de Ciencias1993 – 1995 Estudios de doctorado DGAPA-UNAM1990 – 1992 Estudios de maestría DGAPA-UNAM1986 – 1990 Estudios de licenciatura DGAPA-UNAM1983 – 1984 Estudios de preparatoria, sistema incorporado UNAMV. CONFERENCIAS, SEMINARIOS Y TRABAJOS EN CONGRESOS (235)A. Seminarios y conferencias por invitación (118)– Invitaciones en eventos internacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56– Invitaciones en eventos nacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .62De estos:– Conferencias Plenarias . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5– Conferencias Invitadas en Congresos . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 52– Coloquios y Seminarios Invitados . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 39– Panelista en mesas de discusión científica . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5– Invitaciones en eventos de divulgación . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 171. Pláticas invitadas internacionales (56)2013 Coloquio Optically Active Metal Nanoparticles en Leibniz Institute for Analytical Sciences -ISAS- e.V. inBerlin, Germany, September 162013 Conferencia Plasmonics: Fundamentals and Applications en 10th International Conference on Optics of Surfacesand Interfaces (OSI 10) hosted in Chemnitz, Germany, September 8-13

2013 Conferencia Mapping Structural and Plasmonic Properties of Gold Nanoparticles en “2013 Progress in ElectromagneticsResearch Symposium”(PIERS 2013 Stockholm) Symposium Special Session Advanced Techniquesin Nanoelectromagnetics Applications. Stockholm, Sweden, on August 12-152013 ConferenciaThe 4th Annual World Congress of NanoMedicine during June 5-7, Suzhou, China. Declinada2012 Conferencia Second International Conference on Small Science (ICSS 2012), 16-19 December at Walt DisneyWorld Swan and Dolphin hotel, Orlando Florida, USA. Declinada2012 Conferencia Plasmonic nanostructures and applications en Workshop within the PASI program on “Frontiersin Casimir Physics”, October 6-17, Ushuaia, Argentina2012 Plenaria Plasmonics: Manipulating light at the nanoscale en el XXI IMRC, Cancun Mexico, August 12-172012 Conferencia EPIOPTICS-12, NANOLUM-3 24-29 July, International School of Solid State Physics, EriceItalia. Declinada.2012 Conferencia Plasmonics and electromagnetic field enhancement in metal nanoparticles Simposio 1C ”NanostructuredMaterials and Nanotechnology. en el XXI IMRC, Cancun Mexico, August 12-172012 Conferencia Plasmónica: manipulando luz con nanopartículas en Taller Binacional México-Argentina en Nanotecnología,Junio, 21-222012 Plenaria Plasmonics and electromagnetic field enhancement in metal nanoparticles en Nanomex 2012, Puebla,Puebla from Jun. 11–132012 Conferencia Designing the Plasmonic Response of Metal Nanoparticles en Pan American Advanced StudiesInstitute (PASI) on Computational Materials Science for Energy Generation and Conversion held in Santiago,Chile from Jan. 9-202011 Conferencia Designing the Plasmonic Response of Metal Nanoparticles en First Meeting of the AmericanInitiative on Metal Clusters and Nanoalloys, November 16 to 18, San Antonio Texas.2011 Conferencia Quantum Calculations of Optical Activity in Chiral Nanostructures, Conference on ComputationalPhysics, Glatinburg Tennessee, USA, 30th October – 3rd November2011 Lecturer Winter School J.J. Giambiagi on Nanophotonics at Departamento de Fisica de la Facultad de CienciasExactas de la Universidad de Buenos Aires, July 18–22 Declinada.2011 Plenaria Designing the plasmonic response of noble metal nanoparticles, Nanotech 8, Tuxtla Gutierrez Chiapas,May 23 –252011 Seminario Designing the plasmonic response of noble metal nanoparticles, Northwestern University, MaterialsResearch Science and Engineering Center, January 20th2010 Plenaria Influence of morphology on the optical properties of metal nanoparticles, Molecular Modelling –2010: Advances in Biomolecular and Materials Modelling, which will be held in Melbourne, Australia from the28th November to 1st December2010 Seminar Designing the plasmonic response of noble metal nanoparticles at University of Technology of Sidney,Australia, 23th December2010 Seminar at School of Chemistry, The University of Melbourne, Australia, December 2nd, Declinada.2010 Coloquio Designing the plasmonic response of noble metal nanoparticles, University of Notre Dame, Departmentof Chemistry and Biochemistry December 9th2010 Coloquio Designing the plasmonic response of noble metal nanoparticles, Northwestern University, MaterialsResearch Center, November 9th2010 Plenaria at XXX Annual Meeting International Conference on Surfaces, Materials and Vacuum 2010, September27 to October 1st, Mexico Declinada2010 Coloquio Into the origin of optical activity of gold nanoparticles and carbon nanotubes, Ohio University ,Department of Physics and Astronomy October 14th2010 Discussion Leader en la Gordon Research Conference: Noble Metal Nanoparticles, Preparation, Modelingand Applications June 20-25, Mount Holyoke College, South Hadley, MA2010 Conferencia Tuning surface plasmons in multishell metal nanoparticles, SPIE’s event Photonics Europe Brussels,Bélgica 12 –16 April2010 Conferencia at BIT’s 1st Annual World Congress of Catalytic Asymmetric Synthesis-2010, May 19-21, Beijing,China. Declinada2010 Conferencia International Conference on Nanomaterials: Synthesis, Characterization and Applications (ICN-2010) April 27- 29 at Mahatma Gandhi University, Kottayam, Kerala, India. Declinada2009 Conferencia Chirality at the Nanoscale, Optics of Surfaces and Interfaces VIII, Ischia, Italy 7 -11 September4

2009 Conferencia Into the origin of optical activity of ligand-protected gold nanoparticles Symposium ProtectedMetallic Clusters, Quantum Wells and Metal-nanocrystal Molecules, American Chemical Society 238th NationalMeeting 16–20 August, Washington DC EU.2009 Conferencia Academic situation in Mexico on Nanoscience and Nanotechnology, with emphasis on UNAMand REGINA, The first annual ICPCNanoNet workshop, June 1st, Praga, Republica Checa2009 Conferencia Optically active nanoparticles Reunión Internacional Nanociencias, Monterrey 2009, Nuevo León.19-22 Mayo2009 Seminario Optical properties of nanoparticles Department of Physics & Astronomy, University of Texas atSan Antonio, Texas, EU, Abril 142009 Seminario Optical Porperties of Nanoparticles en Department of Chemistry and Biochemistry, Windsor University,Ontario Canda, March 132008 Conferencia Plasmonics en International Workshop on Advanced Materials for Optoelectronics and RelatedPhysics (AMORPHY), INAOE, Puebla, October 5-112008 Conferencia Optical circular dichroism of bare and passivated Au nanoclusters en International Symposiumon Monolayer-Protected Clusters, Nanoscience Center, University of Jyväskylä, Finland, September 12-132008 Conferencia Circular dichroism of nanotubes and gold clusers EPIOPTICS-10 International School of SolidState Physics, Erice-Sicily, 20-27 June2008 Seminario Surface Plasmon Resonances on Metal Nanoparticles, Air Force Research Laboratory, Materials &Manufacturing Directorate, Wright-Patterson Air Force Base, Ohio, 25 Enero2007 Conferencia Redes en nanotecnología, Encuentro Nano Mercosur 2007, 7 – 9 de agosto, Buenos Aires, Argentina.Organizado por la Fundación Argentina de Nanotecnología2007 Conferencia Optical properties of nanoparticles, Celebrando a Carmen Varea, IFUNAM, México, Noviembre29-302007 Conferencia Surface plasmon resonances on metal nanoparticles, 2a Reunion Nacional de La DINANO, Bocadel Río, Veracruz, Mexico, 30 y 31 de mayo y 1 de junio2006 Seminario Influence of geometry in the surface plasmon resonances of nanoparticles, INFM, Department ofPhysics, University of Rome Tor Vergata, Italia, 20 de enero2006 Conferencia Plasmones de superficie en nanopartículas metálicas, Átomos, untos cuánticos y nanoestructuras,Simposio homenaje a Sergio E. Ulloa, 18 de septiembre, México D. F.2006 Conferencia Surface plasmon resonances on metal nanoparticles, Trends on Novel Materials Workshop, 16-20octubre, Santa Marta Colombia.2005 Conferencia Optical properties of metallic nanoparticles, Scanning Probe Microscopy, Sensors, & Nanostructures,Cancun, México del 4 al 8 de junio2005 Conferencia Recent results on nanocomposites, “Una plática con Harold Kroto, Premio Nobel de Química1996”, IFUNAM, 21 de septiembre2005 Conferencia Presentation of REGINA-UNAM, “Una plática con Harold Kroto, Premio Nobel de Química1996”, IFUNAM, 21 de septiembre2004 Conferencia Optical properties of chiral nanostructures, International Workshop on Nanoscience, México D.F.27 y 28 de mayo2004 Conferencia Propiedades ópticas de Nanoestructuras, Nanostructures Materials and Nanotecnology dentroIV Semanas Nacionales de Cristalografía, León Guanajuato, del 22-24 septiembre2004 Conferencia Optical properties of nanoestructures, XII International Materials Research Congress dentro delsimposio Nanostructured Materials and Nanotechnology, Cancún México, 22-26 de agosto2004 Conferencia Propiedades ópticas de nanoestructuras quirales, sesión de cálculos teóricos del XXIV Congresode la Sociedad Mexicana de Ciencia y Tecnología de Superficies y Materiales, Riviera Maya, del 27 al 30de septiembre2003 Conferencia Casimir effect on nanoparticles Mini simposio homenaje a Rubén G. Barrera. Centro de CienciasFísicas, UNAM, 7 de abril2001 Conferencia Rheological properties of suspensions, INTERNATIONAL MATERIALS RESEARCH CON-GRESS: CANCUN, Trabajo realizado con: R. Esquivel-Sirvent, y G. Ramírez.2000 Seminario Substrate effects in the optical properties of spheroidal nanoparticles, CMSS Colloquium, Mayo,Ohio University.1994 Seminario Optical properties of semiconductors surfaces: Si(111)-7×7, Seminario del programa de MateriaCondensada y Ciencias de Superficies, Ohio University, 26 de octubre1993 Seminario Optical properties of 1D composites Seminario de Estructura de la Materia, Departamento deFísica, Universidad de Roma II, Roma, Italia, 3 de junio5

62. Pláticas invitadas nacionales (39)2013 Conferencia Manipulando luz a escala nanométrica, Universidad AutÛnoma del Estado de MÈxico en elmarco de la semana de Nanoquímica, Toluca, México, 30 de octubre2013 Seminario Nanopartículas Metálicas Ópticamente Activas, Seminario del XXIII Aniversario, IF-BUAP, 20 deseptiembre2013 Seminario Configuración absoluta de nanotubos de carbono, Seminario Sandoval Vallarta, IFUNAM, 17 demayo2013 Seminario Plasmonica: Fundamentos y aplicaciones, 17 abril Univ. de Guanajuato campus León.2013 Seminario División de Materiales Avanzados del Instituto Potosino de Investigación Científica y Tecnológica(IPICYT), 13 de marzo2012 Seminario Programa de Ingeniería Molecular (PIM), en el Instituto Mexicano del Petróleo (IMP), 9 de agosto2012 Conferencia Grandes Retos del Siglo XXI, Difusión Cultural UNAM, 21–25 mayo Ciudad de México2012 Conferencia III CONGRESO NACIONAL DE CIENCIA E INGENIERÍA EN MATERIALES, Mérida, del27 de Febrero al 2 de Marzo2012 Seminario Dicroísmo circular óptico de nanopartículas, Seminario Sandoval Vallarta, IFUNAM, 27 de enero2012 Conferencia Cuando el futuro de la nanotecnología nos alcance, Evento Ciencia y Sociedad, Academia Mexicanade Ciencias. Enero 18 al 202010 Coloquio Nanopartículas ópticamente activas, UAM-I, Junio2010 Coloquio Nanopartículas ópticamente activas, CINVESTAV, Marzo2010 Conferencia Magistral Nanociencia y nanotecnología, Avances de las Mujeres en las ciencias, humanidadesy todas las disciplinas: II Congreso Nacional, Marzo2009 Conferencia Nanopartículas ópticamente activas, 4o. Encuentro Internacional de Nanotecnología, Centro Universitariode los Lagos, de la Universidad de Guadalajara, 27-29 Julio2008 Conferencia Nanotecnología, Cámara de Diputados del H. Congreso de la Unión, 30 de septiembre2007 Conferencia Comportamiento óptico de partículas en escala nanométrica, IV Encuentro de la participaciónde la mujer en la Ciencia, 24-25 mayo2007 Seminario Propiedades ópticas de nanopartículas, Seminario Sandoval Vallarta, IFUNAM, 27 /042007 Conferencia Nanociencia y nanotecnología, Día de puertas abiertas del IFUNAM, 8 de noviembre2007 Conferencia ¿Cómo se ven las nanopartículas?, Coloquio del Posgrado en Ciencias Físicas, 24/022004 Conferencia Propiedades ópticas de nanoestructuras quirales, 3a. Reunión de Nanociencia y Nanotecnología,San Luis Potosí, México 21-23 mayo2004 Seminario Propiedades ópticas de nanoestructuras Seminario Sotero Prieto-REGINA, IFUNAM, 23 de junio2004 Seminario Propiedades ópticas de nanopartículas, Instituto de Ciencias Nucleares, 20 de octubre2004 Conferencia Estudio de la quiralidad de nanotubos por medios ópticos, XLVII Congreso Nacional de Física,Hermosillo Sonora, 25-29 octubre2003 Conferencia Física computacional de nanomateriales, Ceremonia-simposio para la inauguración del nuevocluster (ultra-fis), IFUNAM, 26 de noviembre2003 Conferencia Observando átomos con luz, Una Mirada al Posgrado en Ciencias Físicas, Fac. de CienciasUNAM, 19 de junio2003 Seminario Fuerzas dispersivas en sistemas a escala nanométrica Seminario Sotero Prieto, IFUNAM, 2 de julio2003 Conferencia Observando átomos con luz, Escuela de Verano de Física, IFUNAM, 14 de julio2003 Conferencia Física computacional de nanomateriales, Día de puertas abiertas del IFUNAM, 12 de noviembre2003 Seminario Efecto casimir en nanopartículas Seminario Sotero Prieto, IFUNAM, 9/042002 Seminario Fuerzas de Casimir entre una nanopartícula y un substrato: más allá de la aproximación dipolarTaller Seminario de Gravitación y Física Cuántica, IFUNAM noviembre2001 Seminario Efectos no lineales en propiedades reológicas de suspensiones, SEMINARIO MANUEL SANDOVALVALLARTA, IFUNAM, 25 mayo2001 Seminario Carcaterización óptica de nanopartículas Seminario ”Fronteras de la Física”, Centro de CienciasFísicas, UNAM, 19 septiembre

1998 Conferencia Cálculos de primeros principios de las propiedades ópticas de sólidos, Escuela de otoño de QuímicaComputacional, DGSCA-UNAM, 3-27 noviembre1998 Seminario Pérdida de energía electrónica en sistemas anisotrópicos, Seminario, Instituto de Física, BUAP, 6noviembre1997 Seminario Cálculos microscópicos de las propiedades ópticas de medios inhomogéneos, Seminario M. SandovalVallarta, IFUNAM, enero1996 Seminario Dinámica Molecular y Propiedades Opticas de Cúmulos de Silicio, Seminario de Estado Sólido”Sotero Prieto”, IFUNAM 26 junio1996 Seminario Estructura y propiedades ópticas de cúmulos de silicio, Seminario, Instituto de Física, BUAP, 13septiembre1995 Seminario Propiedades ópticas de superficies semiconductoras, Seminario de Sistemas Dinámicos y Complejos,IFUNAM, junio1995 Seminario Superficies de diamante, Seminario de Estudiantes Carlos Graef, IFUNAM, 6 julio1994 Seminario Transiciones electrónicas en Si(111) reconstruido 7×7, Seminario de Estado Sólido ”Sotero Prieto”,IFUNAM, 24 de agosto73. Mesas redondas y de discusión (5)2013 Panelista Algunas tendencias en la Física: Análisis del estado del arte de la nanociencia mexicana, en Haciadónde va la Ciencia en México, 17 abril Univ. de Guanajuato campus León.2007 Panelista Tecnologías precursoras como fuente de conocimiento, empleo y competitividad: nanotecnología 4 ◦seminario regional de innovación. Foro Consultivo Científico y Tecnológico. Agosto 27, Toluca Edo. de México2007 Panelista El Desarrollo de la Nanociencia en Mexico, dentro del programa de la 2a Reunion Nacional de LaDINANO, Boca del Río, Veracruz, Mexico, 30 y 31 de mayo y 1 de junio2006 Panelista El Futuro de la Física en el Instituto, Congreso Anual Interno, Octubre2005 Panelista Identification of potential areas for bi-national collaboration in nanoscience/nanotechnology,“Workshop on perspectives for bi-national collaboration on nanoscience”, May 19th, San Luis Potosí, S. L.P. México4. Pláticas de divulgación (17)2013 Plática en el DÌa de Puertas Abiertas del IFUNAM, 15 de noviembre.2012 Plática en el CCH Sur, impartida el 6 de septiembre. Dentro del programa de Física.2009 Plática en la sede de Universum, impartida el 8 de noviembre, dentro del programa Domingos en la Ciencia dela AMC2008 Programa de radio Imagen en la Ciencia FM 90.5. Entrevista 2 de diciembre. Nanotecnología.2007 Programa de radio del Instituto Mexicano de la Radio (IMER), en el 660 de AM, Constructores del Conocimiento,el 3 de diciembre2007 Programa de radio en RADIO UNAM, en el 860 de AM, PERFILES, el 10 de diciembre2005 Plática en la Escuela Nacional Preparatoria platel No. 1, impartida el 16 de febrero dentro del marco deactividades del Año Internacional de la Física2005 Plática en el Museo de la Luz, impartida el 9 de junio dentro del marco de actividades del Año Internacionalde la Física2005 3 pláticas en La Feria de la Física, impartidas el 25 y 27 de noviembre dentro del marco de actividades del AñoInternacional de la Física2003 Plática en la sede del Centro de Extensión Tacuba, impartida el 31 de mayo, dentro del programa Domingosen la Ciencia de la AMC2003 Plática en el museo UNIVERSUM impartida el 24 de septiembre, dentro de la semana de la nanociencia y lananotecnología.2003 Plática en el Museo Tecnológico de la CFE, impartida el 12 de octubre, dentro del programa Domingos en laCiencia de la AMC

2002 Plática en el Planetario de Morelia, Michoacán, impartida el 23 de noviembre, dentro del programa Domingosen la Ciencia de la AMC82001 Plática en el Colegio Latino de México (nivel preparatoria) impartida el 24 de enero, dentro del ciclo 100 añosde la Mecánica Cuántica2001 Plática en el museo UNIVERSUM impartida el 4 de marzo, dentro del programa Domingos en la Ciencia.2001 Plática en el Colegio de Bachilleres # 20 (nivel preparatoria) impartida el 8 de mayo, dentro del ciclo Jóvenesa la Investigación.2001 Programa de radio UNAM, DESLINDE, el 9 de octubreB. Otros trabajos en congresos nacionales e internacionales (117)Ver sección XIII para la lista de pláticas y carteles— Trabajos en congresos internacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 99— Trabajos en congresos nacionales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 18De los 117 trabajos:— Presentaciones por Cecilia Noguez . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48— Presentaciones por estudiantes, posdocs u otros colegas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 69VI. EXPERIENCIA PROFESIONALA. Puestos académicos en investigación08/2010 – 07/2011 Profesora InvitadaDepartamento de Química, Northwestern University (NU)Financiado por NU y UNAM-DGAPA08/2005 – vigente Investigadora Titular C de tiempo completo definitivaInstituto de Física, UNAMConcurso de oposición abierto06/2003 – 08/2005 Investigadora Titular B de tiempo completo definitivaInstituto de Física, UNAMConcurso de oposición cerrado08/2000 – 12/2000 Profesora InvitadaDepartamento de Física y Astronomía, Ohio University (OU)Financiado por AMC y OU01/2000 – vigente Definitividad Investigadora Titular de tiempo completoInstituto de Física, UNAMConcurso de oposición cerrado11/1999 – 06/2003 Investigadora Titular A de tiempo completoInstituto de Física, UNAMConcurso de oposición abierto10/1995 – 11/1999 Investigadora Asociada C de tiempo completoInstituto de Física, UNAMContrato por obra determinada08/1995 – 06/1996 Investigadora Postdoctoral AsistenteDepartamento de Física y Astronomía, Ohio University (OU)Financiado por OU06/1994 – 06/1995 Estudiante de Doctorado InvitadaDepartamento de Física y Astronomía, Ohio UniversityBeca DGAPA-UNAM05/1993 – 06/1994 Estudiante de Doctorado InvitadaDepartamento de Física, Universidad de Roma II, Roma ItaliaBeca DGAPA-UNAM08/1988 – 08/1995 Estudiante AsociadaInstituto de Física, UNAMBeca DGAPA-UNAM: servicio social, licenciatura, maestría y doctorado

9B. Puestos académicos en docencia2002 – vigente Tutora del DoctoradoPosgrado en Ciencias Físicas, UNAM1996 – vigente Tutora de la maestríaPosgrado en Ciencias Físicas, UNAM1991 –vigente Profesora de AsignaturaDepartamento de Física, Facultad de Ciencias, UNAM01/2009 – 06/2009 Profesora de AsignaturaDepartamento de Ingeniería Física, Univ. Iberoamericana2000 – 2009 Tutora del DoctoradoPosgrado en Ciencias Físicas y en Materiales, Instituto de Física, BUAP11/1988 – 05/1992 Ayudante de Profesor de AsignaturaDepartamento de Física, Facultad de Ciencias, UNAMC. Participación en órganos colegiados en la UNAM09/2013 – vigente Representante suplente del personal académico del IFUNAM ante el Consejo Técnico dela Investigación Científica08/2011 – vigente Miembro del Consejo Asesor de Cómputo IFUNAM06/2011 – vigente Miembro de la comisión evaluadora del PRIDE de la DGTIC06/2009 – 05/2011 Miembro de la comisión evaluadora del PRIDE de la DGSCA04/2006 – 05/2010 Coordinadora del paquete de materias de Estado Sólido, Materia Condensada y Nanociencias,Posgrado en Ciencias Físicas2005 Participación en el Diseño Curricular y Determinación de Contenidos para la Universidadde la Ciénega del Estado de Michoacán de Ocampo: carrera de Nanotecnología, colaboracióncon el Centro de Estudios sobre la Universidad, UNAM2003 –2010 Coordinación, organización y promoción de la Red de Grupos de Investigación en Nanociencia,REGINA–UNAM2003 – 2010 Miembro de la comisión de becas del Instituto de Física, UNAM06/2001 – 05/2002 Representante del Departamento de Estado Sólido ante el Consejo Interno del IFUNAM06/2000 – 05/2001 Representante suplente del Departamento de Estado Sólido ante el Consejo Interno delIFUNAMD. Participación en órganos colegiados nacionales e internacionales10/2013 – vigente Miembro del Molecular Foundry Proposal Study Panel at Lawrence Berkeley NationalLaboratory06/2012 – vigente Miembro de la comisión de premios de la Academia Mexicana de Ciencias11/2009 – vigente Miembro del Consejo Técnico Académico de la Red Temática de Nanociencias y Nanotecnología,CONACyT09/2011 – 11/2012 Presidenta del comité de evaluación de Laboratorios Nacionales del CONACyT2008 – 2012 Miembro del Comité Científico del ICPCNanoNet Steering Group htpp://www.icpc-nanonet.org10/2008 – 10/2010 Tesorera de la División de Nanociencias y Nanotecnología (DINANO) de la Sociedad Mexicanade Física2005 – vigente Miembro del Scientific Advisory Board de Nanopolis http://www.nanopolis.net/excerpts.php?page=mp

10E. Organización de reuniones científicas nacionales e internacionales2013 Miembro del comité científico del 10th International Symposium on Optics of Surfaces andInterfaces (OSI-X 2013), en Chemnitz, Germany2011 Presidenta del comité organizador del 9th International Symposium on Optics of Surfaces andInterfaces (OSI-IX 2011), Akumal México del 18 al 23 de Septiembre 20112010 Vicepresidenta del comité organizador del 15th International Symposium on Small Particlesand Inorganic Clusters (ISSPIC-XV 2010)2006 Miembro del Comité Científico de la reunión Ciencia Mujer 20062006 Organizadora del Simposio homenaje a Prof. Sergio E. Ulloa por su ingreso como miembrocorrespondiente a la Academia Mexicana de Ciencias2002 Organizadora del Simposio en honor a Rubén G. Barrera Instituto de Física, UNAM2001 Organizadora del taller Workshop on parallel programing using MPI Message-Passing Library,29 de mayo al 5 de junio, IFUNAM1998 Co-organizadora del simposio Theory and Computer Simulation of Materials - Electronic Structureand Optical Properties, dentro del congreso International Materials Research Congress(IMRC), Cancún México Agosto 30 a Septiembre 41998 Co-organizadora del “Taller de propiedades mecánicas, eléctricas y ópticas”, dictado por elDr. James Berryman del Lawrence Livermore National Laboratory. Instituto de Física, UNAMenero.1996 – 1997 Organizadora del Seminario Semanal del Departamento de Estado Sólido del IFUNAMF. Colaboración en agencias de apoyo a la investigación científica como árbitro regulara partir del año en que se indica2011 FONCyT, Argentina2010 National Science Foundation, USA2008 Universidad Nacional de Colombia2005 The Netherlands Foundation for Fundamental Research on Matter2003 Universidad Autónoma de Puebla2003 Sociedad Mexicana de Física2002 Proyectos PAPIIT DGAPA, UNAM1998 Proyectos de Ciencia Básica, CONACyTG. Trabajo editorial06/2012 – vigente Miembro del comité editorial de la revista Ciencia de la Academia Mexicana de Ciencias03/2011 – vigente Miembro del Consejo Editorial de la Revista Internacional ISRN Nanotechnology http://www.hindawi.com/isrn/nanotechnology/2009 – vigente Miembro del SCIYO Scientific Advisory Board2012 Editora invitada de la revista physica status solidi (b), volume 249, número 62011 Editora invitada de la revista European Physical Journal D, volumen 63, número 2H. Arbitro regular de las siguientes revistas internacionales (50+)a partir del año en que se indica

112011 Nano Letters 2012 J Nanopart. Research2010 Gold Bulletin 2010 Int J of Spectroscopy2010 J of Materials Science 2010 Surface Science2010 Applied Optics 2010 Langmuir2010 Sensors & Actuators: A. Physical 2010 J Molecular Structure-Teochem2010 J of Colloid and Interface Science 2010 Materials2010 Current Physical Chemistry 2010 Opto-Electronics Review2010 Journal of Applied Polymer Science 2010 Rapid Research Letter2010 Optics Letters 2009 Journal of Optics2009 Physica Status solidi b 2009 Optics Express2009 J. Physical Chemistry Letters 2009 Journal of Applied Physics2009 Materials Sci. and Engineering B 2009 Plasmonics2009 Euro Physics Letters 2009 Crystal Research and Technology2009 Applied Surface Science 2008 Current Nanoscience2008 Clinica Chimica Acta 2008 Nanotechnology2008 Applied Physics Letters 2008 European Phys. J. D2008 Accounts of Chemical Research 2008 Physical Review A2008 New Journal of Physics 2007 Materials Chemistry and Physics2007 Chemical Physics Letters 2007 ACS Nano2007 J. Nanoscience and Nanotechnology 2007 Journal of Physical Chemistry2007 Journal of Chemical Physics 2006 Journal of Physics D2006 Nature Nanomaterials 2005 Journal of Physics: Cond. Matter2005 Journal of Physics A 2005 Physical Chem. Chem. Phys.2005 Journal Am. Chem. Society 2004 Journal of Physical Chemistry B2004 Chemistry of Materials 2003 Revista Mexicana de Física1997 Physical Review Letters 1996 Physical Review BVII.MEMBRESIAS EN SOCIEDADES CIENTÍFICAS2005 American Chemical Society (ACS)1998 Academia Mexicana de Ciencia de Materiales (AMC)1993 American Physical Society (APS)1990 Materials Research Society (MRS)1988 Sociedad Mexicana de Física (SMF)VIII. PROYECTOS DE INVESTIGACIÓN FINANCIADOS (16)Monto total financiado $ 7,962,236.00 pesos.A. Responsable (12) $ 6,713,023.002013/14 Bases para la detección de moléculas de interés ambiental y biológico mediante espectroscopias ópticas ultrasensiblespor medio de la excitación de plasmones de superficie CONACyT SRE 2012-3 del fondo Secretariade Relaciones Exteriores proyecto 191767. Monto aprobado $692,242.00 (28 de octubre 2013)2013/15 Plasmónica de nanopartículas metálicas para el aumento en la sensibilidad de espectroscopias ópticas, CO-NACyT Ciencia Básica proyecto 179454. Monto aprobado $ 1,250,000.002012/14 Actividad óptica y plasmónica de nanopartículas, DGAPA-UNAM proyecto IN104212. Monto aprobado (primery segundo años) $ 400,000.002011 Optics of Surfaces and Interfaces Congress, AFOSR, Monto aprobado $5,000.00 dólares americanos. aprox. $63,500.002009 Surface Plasmon Resonances in 1D- and 2D- Arrays of Metal Nanoparticles for the Control of EnhancedSpectroscopies, AFOSR, Monto aprobado $ 25,000.00 dólares americanos. aprox. $ 329,762.002008/10 Propiedades ópticas de nanoestructuras quirales, DGAPA-UNAM proyecto IN106408. Monto aprobado $527,890.002007/10 Propiedades ópticas de nanopartículas, CONACyT Ciencia Básica proyecto 48521. Monto aprobado $790,000.00

122004/07 Efecto casimir en materiales reales, DGAPA-UNAM proyecto IN101605. Monto aprobado $ 444,300.002002/05 Propiedades ópticas de materiales usando métodos de primeros principios CONACyT Ciencia Básica proyecto44306. Monto financiado $ 1,170,445.001999/00 Estudio teórico de las propiedades ópticas de nitruros, Fundación “Ricardo J. Zevada”. Monto financiado $50,000.001997/99 Propiedades electrónicas y ópticas de superficies y sistemas desordenados, CONACyT Ciencia Básica proyecto3035PE. Monto financiado $ 302,642.001995/96 First-Principles Calculations of Optical Properties of Semiconductor Surfaces, Ohio Supercomputer Center,Research Grant 700 Resource Units in Cray Y/MP Computer.B. Corresponsable (4) $1,941,455.002001/04 Propiedades ópticas y elásticas de la materia granular: esparcimiento de luz y sonido, DGAPA-UNAM proyectoMonto financiado $ 405,565.001999/01 Efectos de campo local en sistemas con geometrías restringidas, CONACyT Ciencia Básica. Monto financiado$ 612,132.001997/00 Propiedades físicas de sistemas inhomogéneos, DGAPA-UNAM. Monto financiado $ 626,849.001996/97 Propiedades ópticas y elásticas de medios inhomogéneos, CONACyT Ciencia Básica. Monto financiado $296,909.00IX.FORMACIÓN DE RECURSOS HUMANOSA. Cursos Docentes (48)Cursos regulares de licenciatura . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22Cursos regulares en el Posgrado en Ciencias Físicas, UNAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Cursos regulares impartidos como ayudante en Facultad de Ciencias, UNAM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Cursos especiales . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Total de cursos impartidos . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 48

Nivel Curso impartido No. veces semestre(s)Posgrado Taller de Mecánica Estadística 1 (98)Posgrado Estado Sólido 4 (2000, 06,08, 12-2)Posgrado Electrodinámica Clásica 3 (99, 2001, 04)Posgrado Física Computacional 1 (2002)Posgrado Propedéutico Mec. Cuántica 1 (1999)Posgrado Física de Nanomateriales 1 (2007-2)Posgrado Mecánica Cuántica I 2 (2013-1, 2013-2)subtotal 13Licenciatura Física Teórica II: Termodinámica 1 (92)Licenciatura Introducción al Estado Sólido 3 (97-I, 97-II, 99)Licenciatura Laboratorio de Física Clásica II COF 1 (99)Licenciatura Temas Selectos de Estado Sólido 1 (99)Licenciatura Física Moderna III 1 (2000)Licenciatura Física Teórica III: Electromagnetismo 1 (2001)Licenciatura Física Computacional 8 (2002, 2003, 2004, 2005)Licenciatura Física Computacional 1 (10-1)Licenciatura Física Clásica I: mecánica 1 (2002)Licenciatura Laboratorio II de Ingeniería Física 1 (09-2)Licenciatura Propedéutico Física Computacional 1 (1999)Licenciatura Física atómica y materia condensada 1 (2010-1)Licenciatura Introducción a la Física Cuántica 1 (2014-1)subtotal 22Especial Cálculos microscópicos de las propiedades ópticas de 1 (96)superficies cristalinasEspecial Física Computacional 1 (2001)Especial Física de Nanomateriales 1 (2002)Especial Física del Edo. Sólido en Fís. Contempo. 1 (08-1)Especial Nanociencia en Fís. Contempo. 2 (09-1 y 10-1)subtotal 6Ayudante Fís3ica Clásica I: Mecánica 1 (89)Ayudante Física General 4 (90-I, 90-II, 91-I, 91-II)Ayudante Física Teórica II: Termodinámica . 1 (90)Ayudante Mecánica Estadística 1 (93)subtotal 7Total 4813B. Dirección de tesis terminadas (11)Gradoterminadas en procesoLicenciatura 3 –Maestría 4 3Doctorado 4 1Total 11 42012 Alí Michel Angulo MartínezMaestría Posgrado en Ciencias Físicas UNAMTítulo de tesis: Intensificación del campo electromagnético en nanoestructuras metálicasFecha de examen: 26 septiembre de 2012.1 publicación en el J. Phys. Chem. Lett. (2011)2009 Francisco J. Hidalgo MorenoMaestría Posgrado en Ciencias Físicas UNAM.Título de tesis: Actividad óptica de nanopartículas de oro puras y pasivadasFecha de examen: 19 marzo de 2009.4 publicaciones en J. Phys. Chem C (2008), Phys. Rev. B (2009), Eur. Phys. J. D (2009), y Physica StatusSolidi (b) (2010)2008 Ariadna Sánchez CastilloDoctorado en Ciencias de Materiales, Instituto de Física, Univ. Autónoma de PueblaTítulo de tesis: Propiedades Ópticas de Nanotubos Quirales.Fecha de examen: 16 de junio de 2008.

145 publicaciones en el Phys. Rev. B (2006, 2009), J. Phys. Chem. C(2010) y 2 memorias.Situación actual: Prof. Inv. Titular B, UAHidalgo, SNI nivel I2007 Ana Lilia González RonquilloDoctorado Posgrado en Ciencias Físicas UNAM. 2007Título de tesis: Propiedades ópticas de nanopartículas metálicasFecha de examen: 17 octubre de 2007.5 publicaciones en el J. Phys. Chem. B (2005), J. of Computational and Theor. Nanoscience (2007), PhysicaStatus Solidi (c) (2007), Nanotech (2006), J. Phys. Chem. C (2008)Premio Weizmann en Ciencias Exactas 2008, Academia Mexicana de Ciencias.Premio a la mejor tesis doctoral en el área de Ciencia e Ingeniería de Materiales del certamen IIM-UNAM 2008Situación actual: Porfesora-Investigadora IF-BUAP, SNI nivel I2007 Alí Michel Angulo MartínezLicenciatura en Física Facultad de Ciencias, UNAMTítulo de tesis: Estructura atómica y morfología de nanopartículas de plataFecha de examen: 17 de agosto de 2007.1 publicación en el J. Phys. Chem. A (2008)2005 Xóchitl López LozanoDoctorado en Ciencias Física, Instituto de Física, Univ. Autónoma de PueblaTítulo de tesis: Propiedades electrónicas y ópticas de la superficie InAs(110) y de los alambres atómicos deIn/Si(111).Fecha de examen: 22 de julio 2005.6 publicaciones en Phys. Status Soilidi (c) (2003), Rev. Mex. de Fís. (2005), Phys. Rev. B (2005, 2006), 2memoriasPremio a la mejor tesis doctoral en el área de Ciencia e Ingeniería de Materiales del certamen IIM-UNAM 2006Situación actual: Assistant Professor en la Universidad de Texas en San Antonio, EUA, Nivel I del SNILa Dra. Lilia Meza Montes del IF de la BUAP fungió como asesora interna.2004 Ana Lilia González RonquilloMaestría Posgrado en Ciencias Físicas UNAM.Título tesina: Propiedades ópticas de nanopartículas metálicas.Fecha de examen: General de Conocimientos: enero 2004.Fecha de examen: de candidatura, diciembre 2004.2003 Iván Orencio Sosa PérezMaestría Posgrado en Ciencias Físicas UNAMTítulo de tesis: Propiedades ópticas de nanopartículas de formas arbitrarias.Fecha de examen: 28 de enero de 2003.2 publications J. of Physical Chemistry B (2003), 1 memoriaSituación actual: Profesor de TC de la Universidad de la Ciudad de MéxicoCodirección con Rubén G. Barrera, IFUNAM2002 Alejandro Valderrama ZaldivarLicenciatura en l Física Facultad de Ciencias, UNAMTítulo de tesis: Pruebas de polarización en nanotubos simulados con y sin quiralidadFecha de examen: 4 de octubre de 20022000 Martín Solís PérezLicenciatura en Física Facultad de Ciencias, UNAMTítulo de tesis: Cálculos de estructura electrónica de la superficie de germanio reconstruida en su cara (111)Fecha de examen: 13 de julio de 20001 publicación en la Revista Científica TIP (2000)1999 Carlos Enrique Román VelázquezDoctorado en Ciencias de Materiales, CISECETítulo de tesis: Cálculo del tensor dieléctrico efectivo en medios anisotrópicos granulados.Fecha de examen: 21 de septiembre de 1999.4 publicaciones Physica Status Solidi (a) (1999), Physical Review B (2000) y Physica B (2000), 1 memoria.Situación actual: desconocida, en 2003 y 2009 fue designado Nivel I del SNI.Codirección con Rubén G. Barrera IFUNAM

15C. Asesoría a Posdoctorantes (4)09/2008 – 05/2011 Ariadna Sánchez CastilloTema de investigación: Actividad óptica de nanopartículas quiralesPublicaciones:4 en Eur. Phys. J. D (2009), J. Am. Chem. Soc. (Communication) (2010), J. Phys. Chem.C (2010), J. Phys. Chem. Lett. (2011).Situación actual: Prof. Inv. Titular B, Univ. Autónoma de Hidalgo, SNI nivel I06/2004 – 06/2005 Guillermo P. Ortiz FernándezAsesoría durante su estancia de posdoctoral con Rubén G. BarreraTema de investigación: Propiedades ópticas de nanopartículas metálicas en función de su morfologíaPublicaciones: 1 en J. Phys. Chem. B (2005)Situación actual: Investigador Univ Nacl Nordeste, Dept Fis, Fac Ciencias Exactas Nat & Agrimensura,Corrientes, Argentina (en 2005 fue SNI nivel I)01/2003 – 10/2005 Carlos Enrique Román VelázquezTema de investigación: Fuerzas de Casimir y Dicroísmo CircularPublicaciones: 9 incluyendo J. Phys. Chem. B (Letter) (2003), Phys. Rev. A (2004), Phys. Rev. B (2004,2006, 2006), EuroPhysics Letters (2004), J. Phys. A (2006) y 2 memorias (2003, 2004)Situación actual: desconocida (en 2006 fue SNI nivel I).06/2004 – 12/2004 Geonel Rodríguez GattornoTema de investigación: Síntesis, microscopía y propiedades ópticas de nanopartículas de plataPublicaciones: 1 en J. Phys. Chem. B (2005)Situación actual: Investigador 3A del CONVESTAV, Mérida, SNI nivel IID. Dirección de tesis en proceso (4)08/2013 – vigente Karen Atzín Meza MartínezMaestría (0 % de avance) en el Posgrado en Ciencias Físicas UNAM.Publicaciones:Fecha tentativa de examen: diciembre 2015.08/2011 – vigente David Becerril RodríguezMaestría (75 % de avance) en el Posgrado en Ciencias Físicas UNAM.Publicaciones:Fecha tentativa de examen: diciembre 2013.08/2011 – vigente Martín Ernesto Figueroa DelgadilloMaestría (10 % de avance) en el Posgrado en Ciencias Físicas UNAM.Publicaciones:Fecha tentativa de examen: diciembre del 2014.05/2009 – vigente Francisco J. Hidalgo MorenoDoctorado (90 % de avance) en el Posgrado en Ciencias Físicas UNAM.2 publicaciones: J. Phys. Chem. Letters (2011), ACS Nano (2013), Nanoscale (2013,enviado)Título de tesis: Actividad óptica de nanoestructuras.Fecha tentativa de examen: diciembre del 2013.E. Participación en exámenes de grado como sinodal (29)1. Carlos Ignacio Mendoza RuizExámen de grado de Doctor en CienciasFacultad de Ciencias, UNAM, 1999.2. Susana OrozcoExámen de grado de Doctora en CienciasFacultad de Ciencias, UNAM, 1999.3. Catalina López BastidasExámen de grado de Doctora en CienciasFacultad de Ciencias, Univ. Autónoma del Edo. deMorelos, 2000.4. Jose Antonio Sánchez MondragónExámen de grado de Maestro en CienciasFacultad de Ciencias, UNAM, 2001.5. Jorge Alejandro Reyes EsquedaExámen de grado de Doctor en CienciasFacultad de Ciencias, UNAM, 2001.6. Jorge Enrique Mejía SánchezExámen de grado de Doctor en Ciencias

16Centro de Investigaciones en Optica, León Guanajuato,2001.7. Marco Antonio IglesiasExámen de grado de Licenciatura en FísicaFacultad de Ciencias, UNAM, febrero 2004.8. Samuel E. Baltazar RojasExámen de grado de Maestría en Ciencias Aplicadas,Instituto Potosino de Investigación Cienctíficay Tecnológica,9 de julio de 2004.9. Luis Enrique Díaz SánchezExámen de grado de Maestría en Ciencias FísicaPosgrado en Ciencias Físicas, UNAM,8 de febrero del 2005.10. José Luis Cardoso CortésExámen de grado de Doctor en Ciencias FísicaPosgrado en Ciencias Físicas, UNAM,14 de febrero del 2005.11. Amparo Elizabeth Cano BasaveExámen de grado de Licenciatura en FísicaFacultad de Ciencias, UNAM, noviembre 2005.12. María Andrea Gutiérrez CamposExámen general de conociemientos de Doctor enCiencias FísicaPosgrado en Ciencias Físicas, UNAM,6 de julio del 2006.13. Amador BautistaExámen de grado de Licenciatura en FísicaFacultad de Ciencias, UNAM, agosto 2006.14. Jorge Amín Seman H.Exámen de grado de Licenciatura en FísicaFacultad de Ciencias, UNAMseptiembre 2006.15. Laura Elena Rosales ZarateExámen general de conociemientos de Doctor enCiencias FísicaPosgrado en Ciencias Físicas, UNAM,14 de noviembre del 2006.16. Giacomo Bonfanti EscaleraSeminario de titulación Ingeniería FísicaUniversidad Iberoamericana7 de diciembre del 2006.17. Edahí Gutíerrez ReyesExámen general de conociemientos de Doctor enCiencias FísicaPosgrado en Ciencias Físicas, UNAM,17 de mayo del 2007.18. Héctor Gabriel Silva PereyraExámen general de conociemientos de Doctor enCiencias FísicaPosgrado en Ciencias Físicas, UNAM,26 de junio del 2007.19. Alfredo Augusto Guevara GarcíaExámen de grado de Doctor en Ciencias QuímicasPosgrado en Ciencias Químicas, UNAM,10 de agosto del 2007.20. Lirio Euridice Aparicio ServinExámen general de conociemientos de Doctor enCiencias FísicaPosgrado en Ciencias Físicas, UNAM,31 de julio del 2007.21. Ariadna Blanca RomeroExámen general de conociemientos de Doctor enCiencias FísicaPosgrado en Ciencias Físicas, UNAM,2 de agosto del 2007.22. Flavio Fernando Contreras TorresExámen de grado de Doctor en Ciencias QuímicasPosgrado en Ciencias Químicas, UNAM,10 de septiembre del 2007.23. Daniel J RossExámen de grado de Doctor en Física (Ph. D.)Departamento de FísicaUniversidad de Windsor, Ontario Canada13 de Marzo de 2009.24. Orlando Hernández CristobalExámen de candidatura a Doctor en Ciencia e Ingenieríade materialesPosgrado en Ciencia e Ingeniería de materiales,UNAM,14 de mayo del 2009.25. Roberto Mejía OlveraExámen de grado de Maestro en Ciencia e Ingenieríade materialesPosgrado en Ciencia e Ingeniería de materiales,UNAM,en revisión 2009.26. Adair Chávez RovegliaExámen de grado de Licenciatura en FísicaFacultad de Ciencias, UNAM, noviembre 2010.27. José Concepción Torres GuzmánExámen de grado de Doctor en Ciencias (Física)Univ. Autónoma del Estado de Morelos, noviembre,201028. Daniel Cruz DelgadoExámen de grado de Maestro en Ciencia (Física)Posgrado en Ciencia Físicas, UNAM,10 de septiembre 2012.29. Gustavo Roberto Pérez LemusExámen de grado de Licenciatura en FísicaFacultad de Ciencias, UNAM, 12 febrero 2013.F. Participación en exámenes generales y predoctorales (6)30. Jorge Fernando Camacho PérezExamen General de ConocimientosJunio 1998. Facultad de Ciencias, UNAM.

1731. Jorge Fernando Camacho PérezExamen General de ConocimientosEnero 1999. Facultad de Ciencias, UNAM.32. Comité del examen de diagnóstico para ingresar alPosgrado en Ciencias Físicas de la UNAM (1999).Se examinaron 14 alumnos.33. Predoctoral de Electrodinámica Clásicapresentaron examen 8 estudiantesEnero de 2003.34. Predoctoral de Electrodinámica Clásicapresentaron examen 10 estudiantesJulio de 2004.35. Predoctoral de Electrodinámica Clásicapresentaron examen 15 estudiantesEnero de 2009.X. PUBLICACIONES (83)A. Tabla informativa de publicaciones, incluyendo invitaciones y parámetro de impactoArtículos en revistas indizadass con arbitraje . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 59. De los cuales son por invitación: 8. Nota editorial revistas indizadas con arbitraje 2Memorias en extenso con arbitraje . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Memorias en extenso con arbitraje en español . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Capítulos en libros . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Artículos de divulgación científica . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1Publicaciones en total . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 83Revista artículos parámetro* 1er autor o con estudiantes Porde impacto único y posdocs invitaciónChemical Society Reviews 1 28.098 1 1ACS Nano 1 12.062 1J. Am. Chemical Society 1 9.907 1Physical Review Letters 1 7.370 1Journal of Physical Chemistry Letters 2 6.213 1 2 1Journal of Materials Chemistry 1 5.968Journal of Physical Chemistry C 5 4.805 1 3 1Journal of Physical Chemistry B 3 3.696 3Physical Review B 14 3.691 5 7Optics Express 1 3.587Journal of Chemical Physics 2 3.333Plasmonics 1 2.989 1Journal of Physical Chemistry A 2 2.946 1 1Physical Review A 1 2.878 1Euro Physics Letters 1 2.171 1 1Journal of Applied Physics 1 2.168Applied Surface Science 1 2.103Optical Materials 1 2.023 1 1Surface Science 2 1.994 2Journal of Physics A 1 1.564Superlattices and Microstructures 1 1.487 1European Physical Journal D 2 1.476 1Physica Status Solidi (a) 2 1.463 1 1Physica A 1 1.373 1Physica Status Solidi (b) 2 1.316 1 1Physica B 1 1.063 1

J. of Comp. and Theo. Nanoscience 1 0.912 1 1Revista Mexicana de Física 1 0.366 1Physica Status Solidi (c) 2 no tiene 2Il Vuoto 1 no tiene 1TIP Revista Esp. C. Químicas-Biológicas 2 no tiene 1 1 1SUBTOTAL 59 3.921 ** 18 29 8Memorias artículos parámetro* 1er autor o con estudiantes invitaciónMaterials Research Society,Symposium Proceedings 7 2 4Memorias en extensocon arbitraje 5 2 2Memorias en extenso conarbitraje en español 6 4Capítulos en Libros 5 5 5Divulgación 1 1SUBTOTAL 24 8 10 6TOTAL 83 26 39 14* Parámetro de impacto tomado del Science Citation Index (SCI) Journal Citation Reports 2011.** Parámetro de impacto promedio.18B. Portadas en revistas y libros de circulación internacional (4)De izquierda a derecha las portadas corresponden a las siguientes publicaciones:(i) Artículo [63] en el Journal of Physical Chemistry C (Feature Article) 111 (10) 3806 – 3819 (2007).(ii) Artículo [65] en el Physica Status Soildi (c) 4 (11), 4118 – 4126 (2007).(iii) Artículo [79] en el Journal of Physical Chemistry Letters 2 1038 – 1044 (2011).(iv) Capítulo [23] en el libro Complex-Shaped Metal Nanoparticles: Bottom-Up Syntheses and Applications, (2012).C. Publicaciones en revistas periódicas con estricto arbitraje (59)Las publicaciones realizadas con estudiantes y posdocs muestran sus nombres con letras negras gruesas1. Artículos en revistas de circulación internacional (53)83. Mapping the Structural and Optical Properties of Anisotropic Gold Nanoparticles,Ana L. Gonzalez; Cecilia Noguez; Amanda S. BarnardJournal of Materials Chemistry C 1(18), 3150 - 3157 (2013)82. Optical Activity of Achiral Ligand SCH 3 Adsorbed on Achiral Ag 55 Clusters: Relationship between AdsorptionSite and Circular Dichroism,Francisco Hidalgo; Cecilia Noguez;ACS Nano 7, 513 – 521 (2013) DOI: 10.1021/nn304608381. Map of the Structural and Optical Properties of Gold Nanoparticles at Thermal Equilibrium,Ana L. Gonzalez; Cecilia Noguez; Amanda S. BarnardThe Journal of Physical Chemistry C 116, 14170 –14175 (2012)

80. Electromagnetic Field Enhancement at the Edge of Metal Nanostructures,Ali Angulo; Cecilia Noguez; Schatz, GeorgeThe Journal of Physical Chemistry Letters 2, 1978–1983 (2011)79. The Role of Morphology in the Enhanced Optical Activity of Ligand-Protected Metal Nanoparticles,Cecilia Noguez, Ariadna Sánchez-Castillo, Francisco Hidalgo,Artículo por invitación: The Journal of Physical Chemistry Letters 2 1038 – 1044 (2011).Al artículo le dieron la portada del número de la revista78. Designing the plasmonic response of shell nanoparticles: spectral representation,Carlos E. Román-Velázquez, Cecilia Noguez,Journal of Chemical Physics 114(4), 044116-1 – 044116-14 (2011).Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 23, February 7, 2011published by the American Institute of Physics and the American Physical Society.77. Understanding optical activity in single-wall carbon nanotubes from first-principles studiesAriadna Sánchez-Castillo, Cecilia Noguez,The Journal of Physical Chemistry C114(21), 9640 – 9644 (2010)76. On the origin of the optical activity displayed by chiral-ligand-protected metallic nanoclusters,Ariadna Sánchez-Castillo, Cecilia Noguez, Ignacio L. Garzón,Journal of the American Chemical Society (Communication) 132, 1504–1505 (2010).75. Optically active nanoparticles: fullerenes, carbon nanotubes, and metal nanoparticlesFrancisco Hidalgo, Cecilia Noguez,Physica Status Solidi B. 247, 1889–1897 (2010).74. Efficient First-Principles Method for Circular Dichroism of Nanostructures,Francisco Hidalgo, Ariadna Sánchez-Castillo, Cecilia Noguez,Physical Review B 79, 075438 (2009).Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 19, March 9, 2009published by the American Institute of Physics and the American Physical Society.73. Theoretical Study of Surface Plasmon Resonances in Hollow Gold-Silver Double-shell Nanostructures,Carlos E. Román-Velźquez, Cecilia Noguez, Jin Z. Zhang,Artículo por invitación: Journal of Physical Chemistry A 113 4068 – 4074 (2009).72. First-principles calculations of circular dichroism of bare and ligand-protected gold nanoparticles,Francisco Hidalgo, Ariadna Sánchez-Castillo, Ignacio L. Garzón, Cecilia Noguez,Eur. Phys. J. D 52, 179 – 182 (2009).71. Optically active nanoparticles,Cecilia Noguez, Ignacio L. Garzón.Artículo por invitación: Chemical Society Reviews 38, 757 – 771 (2009).70. Intrinsic Chirality in Bare Gold Nanoclusters: The Au − 34 case,Itzel E. Santizo, Francisco Hidalgo, Luis A. Pérez, Cecilia Noguez, and Ignacio L. Garzón,Journal of Physical Chemistry C 112, 17533 – 17539 (2008)69. Plasmonic Optical Properties and Applications of Metal Nanostructures,Jin Z. Zhang, Cecilia Noguez,Artículo por invitación: Plasmonics 4, 127 – 150 (2008).68. Atomic structure of small and intermediate size silver nanoclusters,Ali M. Angulo, Cecilia Noguez,Journal of Physical Chemistry A 112, 5834 – 5838 (2008).67. Optical properties of elongated noble metal nanoparticles,Ana L. González, J. A. Reyes-Esqueda, and Cecilia Noguez,Journal of Physical Chemistry C 112, 7356 – 7362 (2008).66. Large optical birefringence by anisotropic silver nanocomposites,J. A. Reyes-Esqueda, C. Torres-Torres, J. C. Cheang-Wong, A. Crespo-Sosa, L. Rodríguez-Fernández, CeciliaNoguez, A. Oliver,Optics Express 16, 710 – 717 (2008).65. Optical Properties of Silver Nanoparticles,Ana L. González, Cecilia NoguezPhysica Status Soildi (c) 4 (11), 4118 – 4126 (2007).Al artículo le dieron la portada del número de la revista.64. Influence of Morphology on the Optical Properties of Metal NanoparticlesAna L. González, and Cecilia NoguezArtículo por invitación: J. Computational & Theoretical Nanoscience 4, 231 — 238 (2007).19

63. Surface Plasmons on Metal Nanoparticles: The Influence of Shape and Physical EnvironmentCecilia NoguezArtículo por invitación: The Journal of Physical Chemistry C (Feature Article) 111 (10) 3806 –3819 (2007).Al artículo le dieron la portada del número de la revista62. The role of geometry on dispersive forcesCarlos E. Román-Velázquez, Cecilia NoguezJournal of Physics A: Mathematical and General 39, 6695 – 6701 (2006).61. Optical circular dichroism of single-wall carbon nanotubesAriadna Sánchez-Castillo, Carlos E. Román Velázquez, and Cecilia NoguezPhysical Review B 73 045401 (2006).Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 13, January 16, 2006published by the American Institute of Physics and the American Physical Society.60. Reconstruction of quasi-1D In/Si(111) systems: Charge and spin density waves versus bondingXochitl López-Lozano, A. Krivosheeva, A. Stekolnikov, L. Meza-Montes, Cecilia Noguez, J. Furtmueller,and F. BechstedtPhysical Review B 73, 035430 (2006).Seleccionado por el Virtual Journal of Nanoscale Science & Technology, 13, February 6, 2006published by the American Institute of Physics and the American Physical Society.59. Controlled Anisotropic Deformation of Ag Nanoparticles by Si Ion IrradiationA. Oliver, J. A. Reyes-Esqueda, J. C. Cheang-Wong, C. E. Román-Velázquez, A. Crespo-Sosa, L. Rodríguez-Fernández, J. A. Seman, Cecilia NoguezPhysical Review B 74, 245425 (2006).58. Optical Absorbance of Colloidal Suspensions of Silver Polyhedral Nanoparticles,Ana L. González, Cecilia Noguez, Guillermo P. Ortiz, Geonel Rodríguez-Gattorno;Journal of Physical Chemistry B 109 17512 – 17517 (2005).57. Electronic structure and Reflectance Anisotropy spectrum of InAs(110),Xochitl López Lozano, O. Pulci, Cecilia Noguez, K. Fleischer, W. Richter and R. Del Sole.Physical Review B 71, 125337 (2005).56. Optical Properties of Isolated and Supported Metal Nanoparticles,Cecilia Noguez,Artículo por invitación en: Optical Materials 27, 1204 – 1211 (2005).55. Dispersive force between dissimilar materials: Geometrical effects,Cecilia Noguez, Carlos E. Román-VelázquezPhysical Review B 70, 195412 (2004).54. High-multipolar effects on the Casimir force: the non-retarded limit,Cecilia Noguez, Carlos E. Román-Velázquez, C. Villarreal y R. Esquivel-Sirvent,Europhysics Letters 67, 191 – 197 (2004).53. Spectral Representation of the Casimir Force Between a Sphere and a Substrate,Carlos E. Román-Velázquez, Cecilia Noguez, C. Villarreal y R. Esquivel-Sirvent,Physical Review A 69, 042109 (2004).52. Circular dichroism simulated spectra of chiral gold nanoclusters: A dipole approximationCarlos E. Román-Velázquez, Cecilia Noguez, and I.L. Garzón,Journal of Physical Chemistry B (Letter) 107, 12035 – 12038 (2003).51. Optical properties of the cleavage InAs(110) surfaceXochitl López-Lozano, Cecilia Noguez, L. Meza-Montes,Physica Status Solidi (c), 0, 2992 – 2996 (2003).50. Optical Properties of Metal Nanoparticles with Arbitrary Shapes,Iván O. Sosa, Cecilia Noguez, and Rubén G. BarreraJournal of Physical Chemistry B 107, 6269 – 6275 (2003).49. Origin of optical anisotropies of nonpolar GaN surfaces,Cecilia Noguez,Physical Review B, 62, 2681 – 2685 (2000).48. Substrate effects on the optical properties of a spheroidal nanoparticle,Carlos E. Román, Cecilia Noguez, Rubén G. BarreraPhysical Review B, 61, 10427 – 10436 (2000).47. Multipolar plasma resonances in supported alkali-metal nanoparticles,C. Beitia, Y. Borensztein, Rubén G. Barrera, Carlos E. Román, Cecilia NoguezPhysica B 279, 25 – 28 (2000).20

46. Optical properties of a spheroid-substrate systemCarlos E. Román-Velazquez, Cecilia Noguez, Rubén G. BarreraPhysica Status Solidi (a) 175, 393 (1999).45. Electron energy-loss spectra of non-polar GaN surfacesCecilia Noguez,Physica Status Solidi (a) 175, 57 (1999).44. Spectroscopic theoretical study of the atomic reconstruction of GaN (1010)Cecilia Noguez,Physical Review B 58, 12641 – 12644 (1998).43. Electron energy loss for anisotropic systems: application to GaN (1010)R. Esquivel-Sirvent, and Cecilia Noguez,Physical Review B 58, 7367 – 7372 (1998).42. Multipolar and disorder effects on the effective dielectric properties of granular composites,Cecilia Noguez, and Rubén G. Barrera,Physical Review B 57, 302 – 313 (1998).41. First-principles calculations of optical properties: application to silicon clustersCecilia Noguez, and S.E. Ulloa,Physical Review B 56, 9719 – 9725 (1997).40. Theory of the acoustic signature of topological and morphological defects in SiC/ porous SiC laminated ceramics,R. Esquivel-Sirvent and Cecilia Noguez,Journal of Applied Physics 82, 3618 – 3620 (1997).39. First-principles studies of hydrogenated Si(111) − 7 × 7,D.R. Alfonso, Cecilia Noguez, D.A. Drabold, and S.E. Ulloa,Physical Review B 54, 8028 – 8032 (1996).38. Size dependence of the optical properties of silicon clusters,Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Drabold, and S.H. Yang,Superlattices and Microstructures 20, 405 – 410 (1996).37. Theoretical and experimental optical spectroscopy study of hydrogen adsorption at Si(111) − 7 × 7,Cecilia Noguez, C. Beitia, W. Preyss, A.I. Shkrebtii, M. Roy, Y. Borensztein, and R. Del Sole,Physical Review Letters 76, 4923 – 4926 (1996).36. Anisotropic optical response of the diamond (111) − 2 × 1 surface,Cecilia Noguez, and S.E. Ulloa,Physical Review B 53, 13138 – 13145, (1996).35. Optical spectroscopy study of hydrogenation of the Si(111) − 7 × 7 surface,M. Roy, C. Beitia, Y. Borensztein, A.I. Shkrebtii, Cecilia Noguez, and R. Del Sole,Applied Surface Science, 104/105, 158 – 162 (1996).34. Microscopic theory of electron transitions at Si(111) − 7 × 7: optical properties and energy-loss spectra,Cecilia Noguez, A.I. Shkrebtii, and R. Del Sole,Surface Science 331 – 333, 1349 – 1354, (1995).33. Disorder effects on the effective dielectric response of a linear chain of polarizable spheres,Cecilia Noguez, and Rubén G. Barrera,Physica A, 211 (4), 399 –410 (1994).32. Model approach to the calculation of the Si(111) − 7 × 7 optical properties,Cecilia Noguez, A.I. Shkrebtii, and R. Del Sole,Surface Science 318, 342 – 348, (1994).31. A new diagrammatic summation for the effective dielectric response of composites,R. G. Barrera, Cecilia Noguez, and E. V. Anda,Journal of Chemical Physics 96 (2), 1574 – 1581, (1992).212. Artículos en revistas de circulación nacional o local (4)30. Electronic and optical properties of InAs(110),Xochitl López Lozano, Cecilia Noguez, y Lilia Meza-Montes.Revista Mexicana de Física 51 168 – 175 (2005).

29. Propiedades electrónicas de la superficie de Germanio (111) reconstruida 2 × 1,Martín Solís y Cecilia Noguez,Artículo por invitación en: TIP Revista Especializada en Ciencias Químico-Biológicas, 3(1): 48– 59 (2000).28. Propiedades Viscoelásticas de Suspensiones Coloidales,R. Esquivel. G. Ramírez-Santiago y Cecilia Noguez,Artículo por invitación en: TIP Revista Especializada en Ciencias Químico-Biológicas, 3(1): 14– 22 (2000).27. Calculation of the optical properties for the Si(111)-DAS model: 3 × 3 reconstruction,Cecilia Noguez, A.I. Shkrebtii, and R. Del Sole,Il Vuoto 24, 43 – 45 (1995).223. Nota editorial en revistas de circulación internacional (2)26. Optics of Surfaces and Interfaces,Cecilia Noguez, Bernardo mendoza, Raul Esquivel-SirventPhysica Status Solidi (b) 249 1091 – 1091 (2012).25. ISSPIC XV - 15th international symposium on small particles and inorganic clusters,Garzon Ignacio L.; Perez Luis A.; Diaz Gabriela, Cecilia Noguez,European Physical Journal D 63 169 – 169 (2011).D. Capítulos en libros (5)24. Física a escala nanométrica en Perspectivas de la Física para el Siglo XXI,Cecilia Noguez. (eds Octavio Miramontes y Karen Volke),CopIt-arXives 2012, México DF, ISBN 978-0-9831172-9-2. páginas totales 18 (2012).23. Chapter 11: Localized Surface Plasmons of Multifaceted Metal Nanoparticles in Complex-Shaped Metal Nanoparticles:Bottom-Up Syntheses and Applications,Cecilia Noguez, Ana L. González. (eds T. K. Sau and A. L. Rogach), Wiley-VCH Verlag GmbH & Co. KGaA,Weinheim, Germany. páginas 361 – 393 (Junio 2012). doi: 10.1002/9783527652570.ch11Al capítulo le dieron la portada del libro22. Quantum mechanical calculations of electronic and optical properties of semiconductor surfaces,Cecilia Noguez, and Olivia Pulci,“Quantum Chemical Calculations of Surfaces and Interfaces of Materials”, pages 217 –248,Editors: V. A. Basiuk and P. Ugliengo, American Scientific Publishers (2009).21. Propiedades ópticas de nanopartículas metálicas,Cecilia Noguez,en Nanoestructuras, editado por la Sociedad Mexicana de Cristalografía, pags. 91 – 119 (2004).20. Física de nanoestructuras: caracterización y propiedades ópticas,Cecilia Noguez,X Escuela de verano ”La visión molecular de la materia”, Editores J. Recamier y R. Jáuregui, pags. 147 – 160(2002).E. Artículos de divulgación (1)19. Nanociencia y Nanotecnología,Ignacio L. Garzón y Cecilia Noguez,Ciencia y Tecnología 30, 46 –49 (2005).F. Memorias en extenso con arbitraje de circulación internacional (12)18. Surface Plasmon Resonances of Metal Polyhedral NanoparticlesAna L. González, Cecilia Noguez,NSTI – Nanotech 2006 1, 423 – 426 (2006).

17. Casimir force between a sphere and a plane: spectral representation formalism,Cecilia Noguez, Carlos E. Román-Velázquez,en las memorias de “Quantum Field Theory Under the Influence of External Conditions”, pags. 97 – 103,Rinton Press, Ed. por K. A. Milton (2004).16. Casimir forces between nanoparticles and substratesCarlos Román-Velázquez, Cecilia Noguez, C. Villarreal y R. Esquivel-Sirvent.MRS Proceedings Volume 738, pag. G7.35.1 – G7.35.6 (2003).15. Light scattering by isolated nanoparticles with arbitrary shapes,Cecilia Noguez, Iván Sosa, Rubén G. Barrera.2001 FALL MEETING PROCEEDINGS, Symposium W Nanoparticulate Materials, Editors: R.K. Singh, R.Partch, M. Muhammed, M. Senna, H. Hofmann, MRS Proceedings Volume 704, pag. 275 – 280 (2002).14. Casimir Forces between thermally activated nanocompositesRaúl Esquivel-Sirvent, C. Villarreal, Cecilia Noguez,2001 FALL MEETING PROCEEDINGS, Symposium V Nanophase and Nanocomposite Materials IV, Editors:S. Komarneni, R.A. Vaia, G.Q. Lu, J-I. Matsushita, J.C. Parker, MRS Proceedings Volume 703, pag. 99 – 104(2002).13. Optical Characterization of a Spheroidal Nanoparticle on a Substrate,Carlos E. Román-Velázquez, Cecilia Noguez, R.G. Barrera,MRS Symposium Proceedings Vol. 581, 485 – 490 (2000); Nanophase and Nanocomposite Materials III, Editores:S. Komarneni, J.C. Parker, H. Hahn.12. Acoustic signature of defects of SiC/porous SiC laminated ceramics,R. Esquivel-Sirvent, Cecilia Noguez,MRS Symposium Proceedings Vol. 458, 397 – 402 (1997); editado por C. Briant, B. Carter and E. Hall.11. Optical signature of the GaN(1010) surface,Cecilia Noguez, R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloa and D.A. Drabold,MRS Symposium Proceedings Vol. 449, pp. 911 – 916, (1997); editado por F.A. Ponce, T.D. Moustakas, I.Akasaki, B.A. Monemar.10. Microscopic theory of the optical properties of Si(111) − 7 × 7,Cecilia Noguez, A.I. Shkrebtii y R. Del Sole,22nd International Conference on the Physics of Semiconductors. 1995. p. 451 – 454 vol.1. Vancouver, BC,Canada. 15-19 Aug. 1994. vol.1. Publisher World Scientific Singapore, 1995.9. Dielectric response of a chain of disordered polarizable spheres: numerical simulation and theory,Pedro Villaseñor-González, Cecilia Noguez, y Rubén G. Barrera,“Applications of multiple scattering theory to material science”, MRS Symposium Proceedings, Vol. 253,pags.123 – 128, ed. por William H. Butler, Peter H. Dederichs, A. Gonis and R. Weaver, MRS, Pittsburgh,(1992).8. The optical response of composites at low filling fractions: a new diagrammatic summation,Rubén G. Barrera, Cecilia Noguez, y Enrique V. Anda,Surface Sciences: lectures on basic concepts and applications, Vol.62 pags. 249 – 255, ed. por F.A. Ponce y M.Cardona, Springer-Verlag, Berlín, (1991).7. Effective dielectric response of composites: a new diagrammatic approach,Rubén G. Barrera, Cecilia Noguez, y Enrique V. Anda,Condensed Matter Theories, Vol. 5, pags. 209 – 216, ed. por V.C. Aguilera-Navarro, Plenum Press, New york,(1990).23G. Memorias en extenso en español (6)6. Birrefringencia óptica exhibida por nanopartículas metálicas de plata deformadas,Torres-Torres C., Reyes-Esqueda J.A., Cheang-Wong J. C., Crespo-Sosa A., Rodríguez-Fernández L., NoguezC., Oliver A.,XX Reunión Anual de Óptica, 2007.5. Comportamiento óptico de partículas en escala nanométricaCecilia Noguez,Memoria IV encuentro “Participación de la mujer en la Ciencia”, ISBN 978-968-9241-03-4. León Guanajuato,Mayo de 2007.4. Cálculo de Espectros de Dicroísmo Circular de Nanotubos QuiralesAriadna Sánchez-Castillo, Carlos E. Román Velázquez, Cecilia Noguez, y L. Meza-MontesMemorias VI Taller Nacional de Estudiantes de Posgrado en Física y Ciencia de Materiales, Puebla 2004.

3. Estudio teórico de nanotubos de carbono por medio de dicroísmo circularAriadna Sánchez-Castillo, Carlos E. Román Velázquez, Cecilia Noguez, y L. Meza-MontesMemorias del IX Encuentro Regional de Investigación y Enseñanza de la Física, 2004.2. Propiedades electrónicas de superficies semiconductoras idealesXochitl López Lozano, Cecilia Noguez, y L. Meza MontesMemorias del V Taller Nacional de Física y Ciencia de Materiales para Estudiantes de Posgrado, F. PérezRodríguez et. al., BUAP 2003, ISBN 968 863 683 5, México.1. Propiedades electrónicas de las superficies semiconductoras ideales GaAs e InAsXochitl López Lozano, Cecilia Noguez, y L. Meza MontesMemorias del VIII Encuentro Regional de Investigación y Enseñanza de Física, 2002. (en CD)24XI. CITAS A TRABAJOS PUBLICADOS CAPTURADAS EN EL CV (2007)Citas en Google Académico . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2122Visite el sitio web http://scholar.google.com.mx/citations?user=9JVn-G0AAAAJ&hl=esCitas en el ISI Web of Science + Scopus . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1851De las 2007 citas capturadas en el CV:Citas externas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1751Citas por coautores . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . + 93TOTAL CITAS SIN AUTOCITAS 1845Autocitas . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .+ 162NÚMERO H (Combinación del Google y Web of Science) h = 21NÚMERO H (Google académico) h = 20NÚMERO H (ISI Web of Science) h = 19Promedio de citas (1986) por artículo con arbitraje (57) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 34.70En este promedio no se tomaron en cuenta las citas en memorias ni las memorias, ni tampoco las notas editoriales.* Artículos con estudiantes y posdocsArtículo autor correspondienteautor(es)...citas1 J. Phys. Chem C 111 3806 (2007) ̌ Noguez 4592 J. Phys. Chem. B 107 63269 (2003) ̌ Sosa et al. 3693 Plasmonics 3 127 (2008) Zhang et al. 1144 Chem. Soc. Rev. 38 757 (2009) ̌ Noguez et al. 905 Opt. Mater. 27 1204 (2005) ̌ Noguez 876 Phys. Rev. Lett. 76 4923 (1996) Noguez et al. 707 Phys. Rev. B 74 245425 (2006) ̌ Oliver et al. 698 J. Phys. Chem. B 107 12035 (2003) ̌ Román-Velázquez et al. 679 J. Phys. Chem. C 112 7356 (2008) ̌ González et al. 5010 J. Comp. Theor. Nanosci. 4 273 (2007) ̌ González et al. 5011 J. Phys. Chem. B 109 17512 (2005) ̌ González et al. 4012 J. Am. Chem. Soc. 132 1504 (2010) ̌ Sánchez-Castillo et al. 3713 Phys. Rev. B 73 035430 (2006) López-Lozano et al. 3214 Phys. Rev. B 61 10427 (2000) ̌ Román-Velázquez et al. 3215 Phys. Sta. Sol. (c) 4 4118 (2007) ̌ González et al. 2616 Surf. Sci. 331 1349 (1994) Noguez et al. 2517 Phys. Rev. B 73 045401 (2006) ̌ Sánchez-Castillo et al. 2418 Phys. Rev. B 54 8028 (1996) Alonso et al. 2419 Opt. Exp. 16 710 (2008) Reyes-Esqueda et al. 2320 Eur. Phys. Lett. 67 191 (2004) ̌ Noguez et al. 2221 J. Chem. Phys. 96 1574 (1992) Barrera et al. 2222 J. Phys. Chem. C 112 17533 (2008) Santizo et al. 1723 Phys. Rev. B 70 195412 (2004) ̌ Noguez et al. 1724 Phys. Rev. B 58 12641 (1998) ̌ Noguez 1425 Phys. Rev. B 57 302 (1998) ̌ Noguez et al. 14

26 Surf. Sci. 318 342 (1994) Noguez et al. 1327 J. Phys. Chem. C 114 9640 (2010) ̌ Sánchez-Castillo et al. 1228 Phys. Rev. B 58 7367 (1998) ̌ Esquivel-Sirvent et al. 1229 J. Phys. Chem. Lett. 2 1978 (2011) ̌ Angulo et al. 1130 Eur. Phys. J. D 52, 179 (2009) ̌ Hidalgo et al. 1131 Phys. Rev. B53 13138 (1996) ̌ Noguez et al. 1132 J. Phys. Chem. A 113 4068 (2009) ̌ Román-Velázquez et al. 1133 J. Phys. Chem. Lett. 2 1038 (2011) ̌ Noguez et al. 1034 Phys. Rev. A 69 042109 (2004) ̌ Román-Velázquez et al. 1035 Phys. Rev. B 56 9719 (1997) ̌ Noguez et al. 1036 Phys. Rev. B 62 2681 (2000) ̌ Noguez 937 J. Chem. Phys. 134 044116 (2011) ̌ Román-Velázquez et al. 838 Phys. Rev. B 79 075438 (2009) ̌ Hidalgo et al. 839 Physica A 211 399 (1994) Noguez et al. 840 Supp. &Micro. 20 405 (1996) ̌ Noguez et al. 741 J. Phys. Chem. A 112 5834 (2008) ̌ Angulo et al. 642 Physica B 279 (2000) Beitia et al. 643 Phys. Rev. B 71 125337 (2005) ̌ López-Lozano et al. 544 J. Phys. A 39 6695 (2006) ̌ Román-Velázquez et al. 445 J. Appl. Phys. 82 3618 (1997) Esquivel-Sirvent et al. 446 Appl. Surf. Sci. 104 158 (1996) Roy et al. 447 J Phys Chem C 116 14170 (2012) ̌ Gonzalez et al. 348 Phys. Sta. Sol. (a)175 57 (1999) ̌ Noguez 349 Phys. Sta. Sol. (b) 247 1889 (2010) ̌ Hidalgo et al. 350 ACS Nano 7 513 (2013) ̌ Hidalgo et al. 151 Phys. Sta. Sol. (c) 0 2992 (2003) ̌ López-Lozano et al. 152 Phys. Sta. Sol. (a)175 393 (1999) ̌ Román-Velázquez et al. 1Memoria autor(es) ...citas53 MRS Symposium Proceedings Vol. 704 ̌ Noguez et al. 554 MRS Symposium Proceedings, Vol. 253 Villaseñor-G. et al. 355 MRS Symposium Proceedings Vol. 703 Esquivel-Sirvent et al. 356 MRS Symposium Proceedings Vol. 449 ̌ Noguez et al. 257 Quant. Field Theo. I of Ext. Conditions ̌ Noguez et al. 258 Surface Sciences Proceedings Vol. 62 Barrera et al. 159 Com. Privada Noguez 160 MRS Symposium Proceedings Vol. 581 ̌ Román-Velázquez et al. 161 Cap. Quantum Chem. Calculations ̌ Noguez et al. 1TOTAL 44 CITAS 200725XII. CITAS CAPTURADAS (2007)A. Citas sin autocitas (1845)Artículo:A new diagrammatic summation for the effective dielectric responseof composites, R. G. Barrera, Cecilia Noguez, E. V.Anda, Journal of Chemical Physics 96 (2), 1574–1581, (1992).Lo citan (17):1. A. Czainski, Garncarek Z., Piasecki R., Quantitive characterizationof inhomogeneity in thin mettalic filmsusing Garncarek method, Journal of Physics D, 27, 616– 622 (1994).2. R. G. Barrera, C. I. Mendoza, 3-Particle correlationsin the optical properties of granular composites, SolarEnergy Materials and Solar Cells 32, 463 – 476 (1994).3. M.I. Vasilevskiy, E.V. Anda, Effective dielectric responseof semiconductor composites, Phys. Rev. B 54,5844 – 5851, (1996).4. Zhou J. Li L.T., Gui Z.L., Zhang X.W., Barber D.J.,Sol-gel derived BaTiO3 films with embedded silver nanoparticles:preparation and dielectric properties, Nanostruct.Mater. 8, 321 – 328 (1997).5. M. I. Stockman, K. B. Kurlayev, T. F. George, Linearand nonlinear optical susceptibilities of Maxwell Garnettcomposites: Dipolar spectral theory, Phys. Rev. B60, 17071 (1999).6. M. I. Vasilevskiy, Effective Dielectric Response ofComposites Containing uniaxial inclusions, phys.stat.sol. (b) 219, 197 (2000)7. B. Houng, Tin doped indium oxide transparent conductingthin films containing silver nanoparticles bysol-gel technique, Appl. Phys. Lett. 87, 251922 (2005).8. B. Houng and C.-J. Huang, Structure and propertiesof Ag embedded aluminum doped ZnO nanocompositethin films prepared through a sol–gel process, Surfaceand Coatings Technology 201, 3188 (2006).

269. V. Kochergin, V. Zaporojtchenko, H. Takele, F. Faupel,H. Föll, Improved effective medium approach: Applicationto metal nanocomposites, J. of Applied Physics101, 024302 (2007).10. Wu, K.-Y., Wang, C.-C., Chen, D.-H., Preparation andconductivity enhancement of Al-doped zinc oxide thinfilms containing trace Ag nanoparticles by the sol-gelprocess, Nanotechnology 18, (30), 305604 (2007).11. Faupel F, Zaporojtchenko V, Greve H, et al., Depositionof nanocomposites by plasmas, Contributions toPlasma Physics 47 (7): 537-544 (2007).12. P. Szymczak, B. Cichocki, Diagrammatic approach toresponse problems in composite systems, J. Stat. Mech.(2008) P01025.13. Faupel, F., Zaporojtchenko, V., Strunskus, T., Greve,H., Schürmann, U., Takele, H., Hanisch, C., Chakravadhanula,V.S.K., Ni, N., Gerber, A., Quandt, E.,Podschun, R. Functional polymer nanocomposites 16,471 (2008)14. F Zhang, L Yang, D Ge Multifractal formation studiesof layer-by-layer deposited silver-containing indiumtin oxide nanocomposite films by GISAXS, PhysicaB: Condensed Matter 404, 2008 (2009)15. Faupel, F., Zaporojtchenko, V., Strunskus, T., Elbahri,M. Metal-polymer nanocomposites for functional applications,(2010) Advanced Engineering Materials, 12(12) pp. 1177-1190.16. Esquivel-Sirvent, R; Schatz, GC Mixing rules and theCasimir force between composite systems, PHYSICALREVIEW A 83 (4): Art. No. 042512 APR 20 201117. E. Lopez-Lopez, F. J. Sabina, R. Guinovart-Diaz, J.Bravo-Castillero, and R. Rodriguez-Ramos. Effectivepermittivity of a fiber-reinforced composite with transverselyisotropic constituents, Journal of Electrostatics,(0): 2013Artículo:Model approach to the calculation of the Si(111)- 7×7optical properties, Cecilia Noguez, A.I. Shkrebtii y R.Del Sole, Surface Science 318, 342 - 348, (1994).Lo citan(10):18. M. Roy and Y. Borensztein, Hydrogen adsorption on Sisurfaces by real-time surface reflectance spectroscopy,Surface Science, 331 - 333, 453 – 457 (1995).19. J.F. McGlip, Optical characterization of semiconductorsurfaces and interface, Progress in Surface Science49, 1 (1995).20. M. Rocca, Low-Energy EELS Investigation of SurfaceElectronic Excitations on Metals, Surface ScienceReports, 22, 1 – 71 (1995).21. * R. Del Sole en Photonic Probes of Surfaces, Vol.2pags. 131-174, editado por P. Halevi, North-Holland(1995).22. Z. Hammadi, M. Gauch, P. Muller y G. Quentel, Experimentalresults from spectroscopic ellipsometry onthe Si(111)-7×7 surface reconstruction: dielectric functiondetermination, Surface Science 341, 202 – 212(1995).23. McGilp JF, Optical second-harmonic generation as asemiconductor surface and interface probe, Phys. StatusSolidi A 175: (1) 153-167 (1999).24. McGilp JF, Second-harmonic generation at semiconductorand metal surfaces, Surf. Rev. Lett. 6: (3-4)529-558 (1999).25. N. Arzate and B.S. Mendoza, Microscopic studyof surface second- harmonic generation from cleanSi(111)c(4×2) surface, Phys. Rev B 63, 125303(2001).26. Tanaka M, Minami S, Shudo K, Yamakawa E, Isothermaldesorption process of Cl-covered Si(111) studiedby surface differential reflectivity spectroscopy SurfaceScience 527 (1-3): 21-29 MAR 10 200327. Shudo K, Sasaki T, Tanaka A, Shirao T, Real-time monitoringof the desorption process of chlorine-coveredSi(111)-1 x 1 surface with second-harmonic generation,Solid State Communications 127 (3): 203- 208JUL 2003.Artículo:The disorder effects on the effective dielectric response ofa linear chain of polarizable spheres, Cecilia Noguez, yRubén G. Barrera, Physica A, 211 (4), 399 – 410 (1994).Lo citan(6):28. Cruz J., Jongitud E., Mendoza B.S., Second-harmonicgeneration from disorded 1D chains of polarizable spheres,Physica A 241, 12 – 16 (1997).29. Cruz-Mandujano J, Mendoza BS Disorder effectson second-harmonic generation from one-dimensionalarrays of polarizable units Physi. Rev. B 62, 8438,(2000).30. Reyes-Esqueda J, Darracq B, Garcia-Macedo J, et al.Effect of chromophore-chromophore electrostatic interactionsin the NLO response of functionalized organicinorganic sol-gel materials, Opt. Commun. 198: (1-3)207-215 OCT 15 200131. Lazzari, R., Jupille, J. Quantitative analysis of nanoparticlegrowth through plasmonics, Nanotechnology22 (44), art. no. 445703 201132. Rico-Garcia, JM; Lopez-Alonso, JM; Aradian, A Toymodel to describe the effect of positional blocklikedisorder in metamaterials composites, JOURNALOF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 29 (1):53-67; JAN 201233. Taylor, RW; Esteban, R; Mahajan, S; Coulston, R;Scherman, OA; Aizpunia, J; Baumberg, JJ SimpleComposite Dipole Model for the Optical Modesof Strongly-Coupled Plasmonic Nanoparticle Aggregates,JOURNAL OF PHYSICAL CHEMISTRY C, 116(47):25044-25051; 10.1021/jp308986c NOV 29 2012Artículo:Microscopic theory of electron transitions at Si(111)-7×7:optical properties and energy-loss spectra, Cecilia Noguez,A.I. Shkrebtii y R. Del Sole, Surface Science 331- 333, 1349 – 1354 (1994).Lo citan(20):34. J.F. McGlip, Optical characterization of semiconductorsurface and interface, Progress in Surface Science49, 1 (1995).35. Zorn M, Jonsson J, Richter W, Zettler JT, PloskaK, Anisotropic reflectance from semiconductor surfacesfor in-situ monitoring in epitaxial growth systems,Physica Status Solidi A-Applied Research 152 (1): 23-34 NOV 16 199536. K. Pedersen and P. Morgen, Dispersion of 2nd harmonicgeneration on Si(111)-7×7, Physical Review B 52,R2277 (1995).37. R. Del Sole en Photonic Probes of Surfaces, Vol.2 pags.131-174, editado por P. Halevi, North-Holland (1995).38. McGlip J.F. A review of optical 2nd-Harmonic andSum-Frequency Generation at Surfaces and Interfaces,Journal of Physics D: Applied Physics 29 1812 (1996).39. K. Pedersen and P. Morgen, Optical 2nd-HarmonicGeneration Spectrsocopy on Si(111)-7×7, Surf. Sci.377, 393 (1997).40. D. Fick, R. Veith, H. D. Ebinger, H. J. Jänsch, C. Weindel,H. Winnefeld, and J. J. Paggel Electron correlationsin the clean and hydrogen-covered Si(111)-(7×7)surface at extremely low Li coverages, Phys. Rev. B6087831999.41. McGilp JF, Optical second-harmonic generation as asemiconductor surface and interface probe, Phys StatusSolidi A 175: (1) 153-167 (1999).

2742. McGilp JF, Second-harmonic generation at semiconductorand metal surfaces, Surf Rev Lett 6: (3-4) 529-558 (1999).43. Suzuki T, Surface-state transitions of Si(111)-7×7probed using nonlinear optical spectroscopy, Phys RevB 61, R5117-R5120 (2000).44. Shudo K, Takeda S, Munakata T, Resonant surfacestatetransitions of Si(111)-7×7 measured with twophotonphotoemission spectroscopy, Phys Rev B 65 (7):art. no. 075302 (2002)45. Tanaka M, Minami S, Shudo K, Yamakawa E, Isothermaldesorption process of Cl-covered Si(111) studiedby surface differential reflectivity spectroscopy SurfScience 527 (1-3): 21-29 (2003)46. M. Tanaka, E. Yamakawa, T. Shirao, and K. Shudo,Reactivity of halogens on a Si(111) surface studiedby surface differential reflectivity, Phys. Rev. B 68,165411 (2003).47. K. Shudo, H. Washio, and M. Tanaka, .Reactivity ofrestatoms and adatoms in Cl adsorption at a Si(111)-7 × 7 surface, J. Chem. Phys.119, 13077 (2003).48. R. Schillinger, C. Bromberger, H. J. Jänsch, H. Kleine,O. Kühlert, C. Weindel, and D. Fick, MetallicSi(111)-(7x7)-reconstruction: A surface close to aMott-Hubbard metal-insulator transition, Phys. Rev. B72, 115314 (2005).49. Mogawa, Y., Ohno, S.-Y., Shudo, K.-I., Tanaka, M.;Study of Si(111) surface reflection spectrum by clustercalculation, J. of the Vacuum Society of Japan 49 (3),pp. 138-140 (2006).50. Takizawa, J.-I., Koizumi, J.-Y., Ohno, S.-Y., Shudo,K.-I., Tanaka, M., Dependence of surface differentialreflectance spectra on the incident photon energy duringinitial oxidation on Si (001), J. of the VacuumSociety of Japan 49 (5), pp. 323-326 (2006).51. M. Tanaka, K. Shudo and S. Ohno, Nanometer-ScaleStructure Formation on Solid Surfaces , in Advancesin Materials Research, Nano- and Micromaterials, pages19 – 96, Eds. K Ohno, M Tanaka, J Takeda, YKawazoe, Springer Berlin Heidelberg, 2008.52. Pedersen, K Second harmonic generation spectroscopyon Si surfaces and interfaces, PHYSICA STATUSSOLIDI B-BASIC SOLID STATE PHYSICS 247 (8):2002-2011 AUG 201053. Mejia, JE; Mendoza, BS; Pedersen, K Second harmonicresponse of the Si(111)7 x 7 surface, SURFACESCIENCE 605 (9-10): 941-946 MAY 2011Artículo:Optical spectroscopy study of hydrogenation of theSi(111)-7×7 surface, M. Roy, C. Beitia, Y. Borensztein,A.I. Shkrebtii, Cecilia Noguez, y R. Del Sole, AppliedSurf. Science, 104/105, 158 (1996).Lo citan (4):54. McKelvy M.L., Britt T.R. Davis B.L., Gillie J.K., GravesF.B., and Lentz L. A., Infrared spectroscopy, AnalyticalChemistry 70, 119R – 177R (1998).55. Odasso S, Seehofer L, Johnson RL LEED, AES, andSTM study of an ideal Si(111)-(1×1): H surface preparedby in situ atomic hydrogen exposure of the Pbinduced ( √ 3 × √ 3)R30 degrees-beta phase: first experimentalevidence of a non reversible transformation,Applied Surf Science 137: (1-4) 71-77 (1999).56. Dotsenko, S.A., Galkin, N.G., Gouralnik, A.S., Koval,L.V., In situ differential reflectance spectroscopy studyof early stages of β-FeSi2 silicide formation, e-Journalof Surface Science and Nanotechnology 3, 8 April2005, DOI: 10.1380/ejssnt.2005.113.57. Imada, H., Ohta, M., Yamamoto, N. Atom-resolved luminescenceof Si(111)-7x7 induced by scanning tunnelingmicroscopy, Applied Physics Express 3, art. no.045701 (2010)Artículo:Anisotropic optical response of the diamond (111)-2×1surface, Cecilia Noguez, y S.E. Ulloa, Physical ReviewB 53, 13138 – 13145, (1996).Lo citan: (4):58. M Marsili, O Pulci, F Fuchs, F Bechstedt and R DelSole, Many body effects in the electronic and opticalproperties of the (1 1 1) surface of diamond, SurfaceScience, 601 (18), p.4097-4101, (2007)59. M Marsili, O Pulci, F Bechstedt, and R Del Sole, Tightbindingcalculations of quasiparticle wave functions forC(111)2?1, Phys. Rev. B 78 205414 (2008)60. F L Pérez-Sánchez, F Pérez-Rodríguez, Electromagneticexcitation of phonons at C(001) surfaces, Journalof Physics: Condensed Matter 21 , 355010 (2009)61. Ivanov, AV Nonlinear light absorption on the surfaceof a transparent wide-gap crystal: I. Direct interbandtransitions, OPTICS AND SPECTROSCOPY,111 (5):786-797; NOV 2011Artículo:Theoretical and experimental optical spectroscopy studyof hydrogen adsorption at Si(111)-7×7, Cecilia Noguez,C. Beitia, W. Preyss, A.I. Shkrebtii, M. Roy, Y.Borensztein y R. Del Sole, Physical Review Letters 76,4923 – 4926 (1996).Lo citan (66):62. Que J.Z., Radny M.W., Smith P.V.K., Hartree-Fock-DFT cluster calculations of the Si(111)-7×7:H system,Surf. Sci. 391, 161 – 175 (1997).63. Beitia C., Preyss W., Del Sole R., Borenzstein Y., Adsorptionkinetics of H on Si(111)-7×7 by means of surfacedifferential reflectivity, Phys. Rev. B 56, R4371 –R4374 (1997).64. Melinon P., Keghelian P. PrevelB. Perez A., GuirandG. LeBrusq J., Lerme S., Fellarin M. 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S (1999)Memoria: Casimir Forces between thermally activatednanocomposites, Raúl Esquivel-Sirvent, C. Villarreal, CeciliaNoguez, MRS Symposium Proceedings Vol. 703,pp. 99 – 104, (2002)Lo citan (3):1837. J. Bárcenas, L. Reyes, R. Esquivel Sirvent, Casimirforce between bimetallic heterostructures, physica statussolidi (c) 2, 3059 (2005)1838. Esquivel-Sirvent, R., Reyes, L., Barcenas, J., Stabilityand the proximity theorem in Casimir actuated nanodevices, (2006) New Journal of Physics, 8 241.1839. R. Esquivel-Sirvent, Casimir force calculations nearthe insulator -conductor transition in gold thin films,Phys. Rev. A 77, 042107 (2008)Memoria:Light Scattering of isolated nanoparticles with arbitraryshapes, Cecilia Noguez, I. Sosa, R.G. Barrera. 2001Fall Meeting Proc., Symposium W Nanoparticulate Materials,Editors: R.K. Singh, R. Partch, M. Muhammed,M. Senna, H. Hofmann, MRS Proceedings Volume 704,pag. 275 – 280 (2002).Lo citan (4):1840. Kumbhar, A. S.; Kinnan, M. K.; Chumanov, G.; MultipolePlasmon Resonances of Submicron Silver Particles,J. Am. Chem. Soc.; (Communication); 2005;127(36); 12444-12445.1841. Kan, CX; Zhu, JJ; Zhu, XG, Silver nanostructureswith well-controlled shapes: synthesis, characterizationand growth mechanisms, J. Physics D: Appl. Phys. 41,155304 (2008)1842. Fitzgerald, TM; Marciniak, MA; Nauyoks, SE Developmentof a tunable polarimetric scatterometry systemin the MWIR and LWIR, Reflection, Scattering,and Diffraction from Surfaces II 7792: Art. No. 7792092010

861843. T M. Fitzgerald, M A. Marciniak Full Optical ScatterAnalysis for Novel Photonic and Infrared Metamaterials,Conference Proceedings of the Society for ExperimentalMechanics Series, 1, Volume 2, MEMS andNanotechnology, Volume 2, Pages 97-105Memoria:Casimir force between a sphere and a plane: spectral representationformalism, Cecilia Noguez, C. E. Román-Velázquez, en las memorias de “Quantum Field TheoryUnder the Influence of External Conditions”, pags. 97 –103, Rinton Press, Ed. por K. A. Milton (2004). Lo citan(1):1844. Milton, Kimball A. J. Phys A37, R209 (2004).Artículo:Comunicación PrivadaLo citan (1):1845. K. Pedersen and P. Morgen, Dispersion of 2nd harmonicgeneration on Si(111)-7×7, Phys. Rev. B 52,R2277, (1995).B. Autocitas (162)Artículo:A new diagrammatic summation for the effective dielectricresponse of composites, R. G. Barrera, Cecilia Noguez,E. V. Anda, Journal of Chemical Physics 96, 1574(1992).Lo citan: (5)1846. Cecilia Noguez, R.G. Barrera, Disorder effects on theeffective dielectric response of a linear chain of polarizablespheres, Physica A 211, 399 (1994)1847. Cecilia Noguez, Barrera RG, Multipolar and disordereffects in the optical properties of granular composites,Phys Rev B 57 302 (1998)1848. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J. Phys. Chem. C. 111 3806 (2007)1849. A. L. González, and Cecilia Noguez, Influence ofMorphology on the Optical Properties of Metal NanoparticlesJ. Comput. Theor. Nanosci. 4, 231 (2007)1850. Zhang JZ, Cecilia Noguez, Plasmonic Optical Propertiesand Applications of Metal Nanostructures,Plasmonics 3, 127 (2008)Artículo:Model approach to the calculation of the Si(111)- 7×7optical properties, Cecilia Noguez, A.I. Shkrebtii y R.Del Sole, Surface Science 318, 342 - 348, (1994).Lo citan: (3)1851. Cecilia Noguez, Shkrebtii AI, Del Sole R, Microscopictheory of electron transitions at Si(111)-7x7: opticalproperties and energy loss spectra, Surf. Sci. 3331349 (1995)1852. Alfonso DR, Cecilia Noguez, Drabold DA, et al.First-principles studies of hydrogenated Si(111)-7x7Phys. Rev. B 54802819961853. Cecilia Noguez, Ulloa SE Anisotropic optical responseof the diamond (111)-2X1 surface Phys. Rev.B 53131381996Artículo:The disorder effects on the effective dielectric response ofa linear chain of polarizable spheres, Cecilia Noguez, yRubén G. Barrera, Physica A, 211 (4), 399 – 410 (1994).Lo citan: (2)1854. Cecilia Noguez, Barrera RG Multipolar and disordereffects in the optical properties of granular compositesPhys. Rev. B 5730219981855. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J. Phys. Chem. C 111. 3806 (2007)Artículo:Microscopic theory of electron transitions at Si(111)-7×7:optical properties and energy-loss spectra, Cecilia Noguez,A.I. Shkrebtii y R. Del Sole, Surface Science 331- 333, 1349 – 1354 (1994).Lo citan: (5)1856. Cecilia Noguez, Ulloa SE Anisotropic optical responseof the diamond (111)-2X1 surface, Phys. Rev. B531313819961857. Cecilia Noguez, Beitia C, Preyss W, et al. Theoreticaland experimental optical spectroscopy study of hydrogenadsorption at Si(111)-(7x7) Phys. Rev. Lett.76492319961858. Alfonso DR, Cecilia Noguez, Drabold DA, et al.First-principles studies of hydrogenated Si(111)-7x7Phys. Rev. B 54802819961859. Roy M, Beitia C, Borensztein Y, A.I. Shkrebtii, CeciliaNoguez, y R. Del Sole Optical spectroscopy studyof hydrogenation of the Si(111)-7x7 surface, Appl. Surf.Sci. 104 158 (1996)1860. Esquivel-Sirvent R, Cecilia Noguez, Electronenergy loss for anisotropic systems: Application toGaN(1010) Phys Rev B 58 7367 (1998)Artículo:Anisotropic optical response of the diamond (111)-2×1surface, Cecilia Noguez, y S.E. Ulloa, Phys Rev B 53,13138 – 13145, (1996).Lo citan: (7):1861. Cecilia Noguez, Spectroscopic theoretical study of theatomic reconstruction of GaN (1010), Phys Rev B 5812641 (1998).1862. Esquivel-Sirvent R, Cecilia Noguez, Electronenergy loss for anisotropic systems: Application toGaN(1010) Phys Rev B 58 7367 (1998).1863. Cecilia Noguez, Electron energy-loss spectra of nonpolarGaN surfaces, Phys Status Solidi A 175: (1) 57-62 (1999).1864. Cecilia Noguez, Origin of optical anisotropies ofnonpolar GaN surfaces, Phys Rev B 62(4) 2681-2685JUL 15 (2000).1865. X. López-Lozano, Cecilia Noguez, L. Meza-Montes,Optical properties of the cleavage InAs(110) surface,Physica Status Solidi (c), 0, 2992 – 2996 (2003).1866. Lopez-Lozano X, Noguez C, Meza-Montes L., Electronicand optical properties of InAs(110), Rev Mex Fis51 168 (2005).1867. Lopez-Lozano, X; Pulci, O; Noguez, C; Fleischer, K;Del Sole, R; Richter, W., Electronic structure and reflectanceanisotropy spectrum of InAs(110), Phys RevB71 (12): Art. No. 125337 (2005).Artículo:Theoretical and experimental optical spectroscopy studyof hydrogen adsorption at Si(111)-7×7, Cecilia Noguez,C. Beitia, W. Preyss, A.I. Shkrebtii, M. Roy, Y.Borensztein y R. Del Sole, Phys Rev Lett 76, 4923 –4926 (1996).Lo citan (4):1868. Alfonso DR, Cecilia Noguez, Drabold DA, et al.First-principles studies of hydrogenated Si(111)-7x7Phys Rev B 54 8028 (1996).

871869. Cecilia Noguez, Origin of optical anisotropies ofnonpolar GaN surfaces, Phys Rev B 62, 2681 (2000)1870. Sosa IO, Noguez C, Barrera RG. Optical propertiesof metal nanoparticles with arbitrary shapes, J PhysChem B 107, 6269 (2003)1871. Cecilia Noguez, Optical properties of isolated andsupported metal nanoparticles, Opt Materials 27, 1204(2005)Artículo:Size dependence of the optical properties of silicon clusters,Cecilia Noguez, J. Song, S.E. Ulloa, D.A. Draboldy S.H. Yang, Superlattices and Microstructures 20, 405(1996)Lo citan (1):1872. Cecilia Noguez, Ulloa SE First-principles calculationsof optical properties: Application to silicon clustersPhys. Rev. B 5697191997Artículo:First-principles studies of hydrogenated Si(111)-7×7,D.R. Alfonso, Cecilia Noguez, D.A. Drabold y S.E.Ulloa, Phys Rev B 54, 8028 (1996)Lo citan (2):1873. Cecilia Noguez, et al., Theoretical and experimentaloptical spectroscopy study of hydrogen adsorption atSi(111)-7×7, Phys Rev Lett 76, 4923 (1996)1874. Cecilia Noguez, Ulloa SE First-principles calculationsof optical properties: Application to silicon clusters,Phys Rev B 56, 9719 (1997)Artículo:First-principles calculations of optical properties: applicationto silicon clusters, Cecilia Noguez, y S.E. Ulloa,Phys Rev B 56, 9719 (1997).Lo citan (1):1875. Cecilia Noguez, Song JY, Ulloa SE, et al. Size dependenceof the optical properties of silicon clusters,Superlattice Microst 20 405 (1996)Artículo:Multipolar and Disorder effects on the effective dielectricproperties of granular composites, Cecilia Noguez, yRubén G. Barrera, Phys Rev B 57, 302 (1998).Lo citan (3):1876. Sosa IO, Noguez C, Barrera RG. Optical propertiesof metal nanoparticles with arbitrary shapes, J PhysChem B 107, 6269 (2003)1877. Gonzalez, AL; Noguez, C; Ortiz, GP; Rodriguez-Gattorno, G., Optical absorbance of colloidal suspensionsof silver polyhedral nanoparticles J Phys ChemB 109, 17512 (2005)1878. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J. Phys. Chem. C. 111 3806 (2007)Artículo:Theory of electron energy loss for anisotropic systems:application to GaN (1010), R. Esquivel-Sirvent y CeciliaNoguez, Physical Review B 58, 7367 (1998)Lo citan (4):1879. Cecilia Noguez, Spectroscopic theoretical study of theatomic reconstruction of GaN (10(1)over-bar0) PhysRev B 58 12641 (1998)1880. Cecilia Noguez, Origin of optical anisotropies ofnonpolar GaN surfaces Phys Rev B, 2681 (2000)1881. Cecilia Noguez, Electron energy-loss spectra of nonpolarGaN surfaces Phys Status Solidi A 175, 57 (1999)1882. Lopez-Lozano X, Noguez C, Meza-Montes L., Electronicand optical properties of InAs(110), Rev Mex Fis51, 168 (2005)Artículo:Spectroscopic theoretical study of the atomic reconstructionof GaN (1010), Cecilia Noguez, Phys Rev B 58,12641 (1998).Lo citan (6):1883. Cecilia Noguez, Electron energy-loss spectra of nonpolarGaN surfaces, Physica Status Solidi (a) 175, 57(1999)1884. R. Esquivel-Sirvent y Cecilia Noguez, Theory ofelectron energy loss for anisotropic systems: applicationto GaN (1010), Phys Rev B 58, 7367 (1998)1885. Cecilia Noguez, Origin of optical anisotropies ofnonpolar GaN surfaces Phys Rev B 62, 2681 (2000)1886. X. López-Lozano, Cecilia Noguez, L. Meza-Montes,Optical properties of the cleavage InAs(110) surface,Physica Status Solidi (c), 0, 2992 (2003)1887. Lopez-Lozano X, Noguez C, Meza-Montes L., Electronicand optical properties of InAs(110), Rev Mex Fis51, 168 (2005)1888. Lopez-Lozano, X; Pulci, O; Noguez, C; Fleischer, K;Del Sole, R; Richter, W., Electronic structure and reflectanceanisotropy spectrum of InAs(110), Phys RevB71, 125337 (2005)Artículo:Electron energy-loss spectra of non-polar GaN surfaces,Cecilia Noguez, Physica Status Solidi (a) 175, 57(1999).Lo citan (1):1889. Cecilia Noguez, Origin of optical anisotropies ofnonpolar GaN surfaces Phys Rev B 62, 2681 (2000)Artículo:Optical properties of a spheroid-substrate system, CarlosE. Román-Velazquez, Cecilia Noguez, Rubén G.Barrera, Physica Status Solidi (a) 175, 393 (1999)Lo citan (1):1890. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J. Phys. Chem. C. 111, 3806 (2007)Artículo:Multipolar plasma resonances in supported alkali-metalnanoparticles, C. Beitia, Y. Borensztein, R. G. Barrera, C.E. Román, Cecilia Noguez, Physica B 279, 25 (2000).Lo citan (2):1891. Sosa IO, Noguez C, Barrera RG. Optical propertiesof metal nanoparticles with arbitrary shapes, J PhysChem B 107, 6269 (2003)1892. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J. Phys. Chem. C 111, 3806 (2007)Artículo:Substrate effects on the optical properties of a spheroidalnanoparticle, Carlos E. Román, Cecilia Noguez, RubénG. Barrera Phys Rev B, 61, 10427 (2000).Lo citan (9):1893. Cecilia Noguez, Origin of optical anisotropies ofnonpolar GaN surfaces Phys Rev B 62, 2681 (2000)1894. Sosa IO, Cecilia Noguez, Barrera RG. Optical propertiesof metal nanoparticles with arbitrary shapes, JPhys Chem B 107, 6269 (2003)1895. C. E. Román-Velázquez, Cecilia Noguez, C. Villarreal,and R. Esquivel-Sirvent Spectral representationof the nonretarded dispersive force between a sphereand a substrate, Phys Rev A 69, 042109 (2004)1896. Cecilia Noguez, Optical properties of isolated andsupported metal nanoparticles, Opt. Materials 27, 1204(2005)1897. Gonzalez, AL; Cecilia Noguez; Ortiz, GP;Rodriguez-Gattorno, G., Optical absorbance of colloidalsuspensions of silver polyhedral nanoparticlesJ Phys Chem B 109, 17512 (2005)1898. Roman-Velazquez CE, Noguez C.; The role of geometryon dispersive forces , J Phys A 39, 6695 (2006)

881899. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J. Phys. Chem. C, 111 3806 (2007)1900. Zhang JZ, Cecilia Noguez, Plasmonic Optical Propertiesand Applications of Metal Nanostructures,Plasmonics 3, 127 (2008)1901. Roman-Velazquez, CE; Cecilia Noguez, Designingthe plasmonic response of shell nanoparticles: Spectralrepresentation, JOURNAL OF CHEMICAL PHYSICS134 (4): Art. No. 044116 JAN 28 2011Artículo:Origin of optical anisotropies of non-polar GaN surfaces,Cecilia Noguez, Phys Rev B, 62, 2681 (2000).Lo citan (1):1902. Lopez-Lozano, X; Pulci, O; Noguez, C; Fleischer, K;Del Sole, R; Richter, W., Electronic structure and reflectanceanisotropy spectrum of InAs(110), Phys RevB71, 125337 (2005)Artículo:Optical Properties of Metal Nanoparticles with ArbitraryShapes, Iván O. Sosa, Cecilia Noguez, and Rubén G.Barrera J. Phys. Chem. B 107, 6269 – 6275 (2003)Lo citan (8):1903. Román-Velázquez CE, Cecilia Noguez, Garzon IL,Circular dichroism simulated spectra of chiral gold nanoclusters:A dipole approximation, J Phys Chem B107, 12035 (2003)1904. Cecilia Noguez, Optical properties of isolated andsupported metal nanoparticles, Opt Materials 27, 1204(2005)1905. Gonzalez, AL; Cecilia Noguez; Ortiz, GP;Rodriguez-Gattorno, G., Optical absorbance of colloidalsuspensions of silver polyhedral nanoparticlesJ Phys Chem B 109, 17512 (2005)1906. Noguez C., Surface plasmons on metal nanoparticles:The influence of shape and physical environment, JPhys Chem C 111, 3806 (2007)1907. A. L. González, Cecilia Noguez, Optical Propertiesof Silver Nanoparticles, Physica Status Soildi (c) 4,4118 (2007)1908. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J. Phys. Chem. C 111, 3806 (2007)1909. Zhang JZ, Cecilia Noguez, Plasmonic Optical Propertiesand Applications of Metal Nanostructures,Plasmonics 3, 127 (2008)1910. Gonzalez, AL; Cecilia Noguez; Barnard, AS Mapof the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, JOURNAL OFPHYSICAL CHEMISTRY C, 116 (26):14170-14175;10.1021/jp3047906 JUL 5 2012Artículo:Circular dichroism simulated spectra of chiral gold nanoclusters:A dipole approximation, C. Román-Velázquez,Cecilia Noguez, and I.L. Garzón, J Phys Chem B 107,12035 (2003)Lo citan (4):1911. Sanchez-Castillo A, Roman-Velazquez CE, Noguez C,;Optical circular dichroism of single-wall carbon nanotubes, Phys Rev B 73, 045401 (2006)1912. Noguez C., Surface plasmons on metal nanoparticles:The influence of shpae and physical environment, JPhys Chem C 111, 3806 (2007)1913. Hidalgo, F; Sanchez-Castillo, A; Garzon, IL; Noguez,C, First-principles calculations of circular dichroismof ligand-protected gold nanoparticles, Euro Phys J D52, 179 (2009)1914. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)Artículo:Spectral Representation of the Casimir Force Between aSphere and a Substrate, C. Román-Velázquez, CeciliaNoguez, C. Villarreal y R. Esquivel-Sirvent. Phys Rev A69, 042109 (2004).Lo citan (2):1915. Cecilia Noguez, C. E. Román-Velázquez, R. Esquivel-Sirvent y C. Villarreal, High-multipolar effects on theCasimir force: the non-retarded limit, Europhysics Letters67, 191 (2004)1916. Roman-Velazquez, CE; Cecilia Noguez, Designingthe plasmonic response of shell nanoparticles: Spectralrepresentation, JOURNAL OF CHEMICAL PHYSICS134 (4): Art. No. 044116 JAN 28 2011Artículo:Dispersive force between dissimilar materials: Geometricaleffects, Cecilia Noguez, C.E. Román-Velázquez, PhysRev B 70, 195412 (2004)Lo citan (3):1917. Roman-Velazquez CE, Noguez C.; The role of geometryon dispersive forces , J Phys A 39, 6695 (2006)1918. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J Phys Chem C 111, 3806 (2007)1919. Roman-Velazquez, CE; Cecilia Noguez, Designingthe plasmonic response of shell nanoparticles: Spectralrepresentation, JOURNAL OF CHEMICAL PHYSICS134 (4): Art. No. 044116 JAN 28 2011Artículo:Optical Properties of Isolated and Supported Metal Nanoparticles,Cecilia Noguez, Optical Materials 27, 1204– 1211 (2005).Lo citan (12):1920. Gonzalez, AL; Cecilia Noguez; Ortiz, GP;Rodriguez-Gattorno, G., Optical absorbance of colloidalsuspensions of silver polyhedral nanoparticles JPhys Chem B 109, 17512 (2005)1921. Roman-Velazquez CE, Noguez C.; The role of geometryon dispersive forces , J Phys A 39, 6695 (2006)1922. A. Oliver, J. A. Reyes-Esqueda, J. C. Cheang-Wong,C. E. Roman-Velazquez, A. Crespo-Sosa, L. Rodriguez-Fernandez, J. A. Seman, and Cecilia Noguez; Controlledanisotropic deformation of Ag nanoparticles bySi ion irradiation, Phys Rev B 74, 245425 (2006)1923. Gonzalez, A.L., Noguez, C. Surface plasmon resonancesof metal polyhedral nanoparticles, 2006 NSTI NanotechnologyConference and Trade Show - NSTI Nanotech2006 Technical Proceedings 1, pp. 423-4261924. Gonzalez, A.L., Noguez, C. Influence of morphologyon the optical properties of metal nanoparticles, 2007Journal of Computational and Theoretical Nanoscience4 (2), pp. 231-2381925. Noguez C., Surface plasmons on metal nanoparticles:The influence of shape and physical environment, JPhys Chem C 111, 3806 (2007)1926. A. L. González, Cecilia Noguez, Optical Propertiesof Silver Nanoparticles, Physica Status Soildi (c) 4,4118 (2007)1927. Zhang JZ, Cecilia Noguez, Plasmonic Optical Propertiesand Applications of Metal Nanostructures,Plasmonics 3, 127 (2008)1928. Gonzalez, A.L., Reyes-Esqueda, J.A., Noguez, C. Opticalproperties of elongated noble metal nanoparticles,2008 Journal of Physical Chemistry C 112 (19), pp.7356-7362

891929. Roman-Velazquez, CE; Cecilia Noguez, Designingthe plasmonic response of shell nanoparticles: Spectralrepresentation, JOURNAL OF CHEMICAL PHYSICS134 (4): Art. No. 044116 JAN 28 20111930. Gonzalez, AL; Cecilia Noguez; Barnard, AS Mapof the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, JOURNAL OFPHYSICAL CHEMISTRY C, 116 (26):14170-14175;10.1021/jp3047906 JUL 5 20121931. Gonzalez, AL; Noguez, C; Barnard, AS Mapping thestructural and optical properties of anisotropic goldnanoparticles, JOURNAL OF MATERIALS CHE-MISTRY C, 1 (18):3150-3157; 10.1039/c3tc30313f 2013Artículo:Optical Absorbance of Colloidal Suspensions of SilverPolyhedral Nanoparticles, Gonzalez, A. L.; Noguez, C.;Ortiz, G. P.; Rodriguez-Gattorno, G.; J Phys Chem B109, 17512 (2005)Lo citan (7):1932. Roman-Velazquez CE, Noguez C.; The role of geometryon dispersive forces , J Phys A 39, 6695 (2006)1933. J. A. Reyes-Esqueda, C. Torres-Torres, J. C. Cheang-Wong, A. Crespo-Sosa, L. Rodriguez-Fernandez, CeciliaNoguez, A. Oliver, Large optical birefringenceby anisotropic silver nanocomposites, Optics Express16, 710 (2008)1934. A. L. González, Cecilia Noguez, Optical Propertiesof Silver Nanoparticles, Physica Status Soildi (c) 4,4118 (2007)1935. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J Phys Chem C 111, 3806 (2007)1936. Roman-Velazquez CE, Cecilia Noguez, Zhang JZTheoretical Study of Surface Plasmon Resonances inHollow Gold-Silver Double-Shell Nanostructures, JPhys Chem A 113, 4068 (2009)1937. Roman-Velazquez, CE; Cecilia Noguez, Designingthe plasmonic response of shell nanoparticles: Spectralrepresentation, JOURNAL OF CHEMICAL PHYSICS134 (4): Art. No. 044116 JAN 28 20111938. Gonzalez, AL; Cecilia Noguez; Barnard, AS Mapof the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, JOURNAL OFPHYSICAL CHEMISTRY C, 116 (26):14170-14175;10.1021/jp3047906 JUL 5 2012Artículo:Optical circular dichroism of single-wall carbon nanotubes,A. Sánchez-Castillo, C. E. Román Velázquez, andCecilia Noguez, Phys Rev B 73, 045401 (2006)Lo citan(3):1939. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J Phys Chem C 111, 3806 (2007)1940. Sanchez-Castillo, A; Noguez, C Understanding OpticalActivity in Single-Walled Carbon Nanotubes fromFirst-Principles Studies, JOURNAL OF PHYSICALCHEMISTRY C 114 (21): 9640-9644 JUN 3 20101941. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)Artículo:Controlled Anisotropic Deformation of Ag Nanoparticlesby Si Ion Irradiation, A. Oliver, J. A. Reyes-Esqueda, J. C.Cheang-Wong, C. E. Román-Velázquez, A. Crespo-Sosa,L. Rodríguez-Fernández, J. A. Seman, Cecilia Noguez,Phys Rev B 74, 245425 (2006)Lo citan(3):1942. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J Phys Chem C 111, 3806 (2007)1943. Zhang JZ, Cecilia Noguez, Plasmonic Optical Propertiesand Applications of Metal Nanostructures,Plasmonics 3, 127 (2008)1944. A. L. González, J. A. Reyes-Esqueda, and CeciliaNoguez, Optical properties of elongated noble metalnanoparticles, Journal of Physical Chemistry C 112,7356 – 7362 (2008)Artículo:Surface Plasmons on Metal Nanoparticles: The Influenceof Shape and Physical Environment, Cecilia Noguez,J Phys Chem C 111, 3806 (2007)Lo citan(6):1945. J. A. Reyes-Esqueda, C. Torres-Torres, J. C. Cheang-Wong, A. Crespo-Sosa, L. Rodriguez-Fernandez, CeciliaNoguez, A. Oliver, Large optical birefringenceby anisotropic silver nanocomposites, Optics Express16, 710 (2008)1946. Roman-Velazquez CE, Cecilia Noguez, Zhang JZTheoretical Study of Surface Plasmon Resonances inHollow Gold-Silver Double-Shell Nanostructures, JPhys Chem A 113, 4068 (2009)1947. Roman-Velazquez, CE; Cecilia Noguez, Designingthe plasmonic response of shell nanoparticles: Spectralrepresentation, JOURNAL OF CHEMICAL PHYSICS134 (4): Art. No. 044116 JAN 28 20111948. Angulo, AM; Cecilia Noguez; Schatz, GC ElectromagneticField Enhancement for Wedge-Shaped MetalNanostructures, JOURNAL OF PHYSICAL CHE-MISTRY LETTERS 2 (16): 1978-1983 20111949. Gonzalez, AL; Cecilia Noguez; Barnard, AS Mapof the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, JOURNAL OFPHYSICAL CHEMISTRY C, 116 (26):14170-14175;10.1021/jp3047906 JUL 5 20121950. Gonzalez, AL; Noguez, C; Barnard, AS Mapping thestructural and optical properties of anisotropic goldnanoparticles, JOURNAL OF MATERIALS CHE-MISTRY C, 1 (18):3150-3157; 10.1039/c3tc30313f 2013Artículo:Influence of Morphology on the Optical Properties of MetalNanoparticles, A. L. González, and Cecilia Noguez,J. Comput. Theor. Nanosci. 4, 231 (2007)Lo citan(5):1951. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J Phys Chem C 111, 3806 (2007)1952. Roman-Velazquez CE, Cecilia Noguez, Zhang JZTheoretical Study of Surface Plasmon Resonances inHollow Gold-Silver Double-Shell Nanostructures, JPhys Chem A 113, 4068 (2009)1953. Angulo, AM; Cecilia Noguez; Schatz, GC ElectromagneticField Enhancement for Wedge-Shaped MetalNanostructures, JOURNAL OF PHYSICAL CHE-MISTRY LETTERS 2 (16): 1978-1983 20111954. 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901956. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)Artículo: Optical properties of elongated noble metalnanoparticles, A. L. González, J. A. Reyes-Esqueda, andCecilia Noguez, Journal of Physical Chemistry C 112,7356 – 7362 (2008).Lo citan (4):1957. Roman-Velazquez CE, Cecilia Noguez, Zhang JZTheoretical Study of Surface Plasmon Resonances inHollow Gold-Silver Double-Shell Nanostructures, JPhys Chem A 113, 4068 (2009)1958. Roman-Velazquez, CE; Cecilia Noguez, Designingthe plasmonic response of shell nanoparticles: Spectralrepresentation, JOURNAL OF CHEMICAL PHYSICS134 (4): Art. No. 044116 JAN 28 20111959. Gonzalez, AL; Cecilia Noguez; Barnard, AS Mapof the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, JOURNAL OFPHYSICAL CHEMISTRY C, 116 (26):14170-14175;10.1021/jp3047906 JUL 5 20121960. 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Gonzalez, AL; Cecilia Noguez; Barnard, AS Mapof the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, JOURNAL OFPHYSICAL CHEMISTRY C, 116 (26):14170-14175;10.1021/jp3047906 JUL 5 20121965. Gonzalez, AL; Noguez, C; Barnard, AS Mapping thestructural and optical properties of anisotropic goldnanoparticles, JOURNAL OF MATERIALS CHE-MISTRY C, 1 (18):3150-3157; 10.1039/c3tc30313f 2013ArtículoLarge optical birefringence by anisotropic silver nanocomposites,J. A. Reyes-Esqueda, C. Torres-Torres, J. C.Cheang-Wong, A. Crespo-Sosa, L. Rodríguez-Fernández,Cecilia Noguez, A. Oliver, Optics Express 16, 710–717(2008).Lo citan (2):1966. Zhang JZ, Cecilia Noguez, Plasmonic Optical Propertiesand Applications of Metal Nanostructures,Plasmonics 3, 127 (2008)1967. A. L. González, J. A. Reyes-Esqueda, and CeciliaNoguez, Optical properties of elongated noble metalnanoparticles, Journal of Physical Chemistry C 112,7356 (2008)ArtículoIntrinsic Chirality in Bare Gold Nanoclusters: The Au − 34case, I. E. Santizo, et al., Journal of Physical ChemistryC 112, 17533 (2008)Lo citan (6):1968. Hidalgo, F; Sanchez-Castillo, A; Garzon, IL; Noguez,C, First-principles calculations of circular dichroismof ligand-protected gold nanoparticles, Euro Phys J D52, 179 (2009)1969. Hidalgo, F., Sanchez-Castillo, A., Noguez, C. Efficientfirst-principles method for calculating the circular dichroismof nanostructures, 2009, Physical Review B 79(7) , art. no. 0754381970. Noguez, C., Garzon, I.L. Optically active metal nanoparticles,2009, Chemical Society Reviews 38 (3) , pp.757-7711971. Hidalgo, F., Sanchez-Castillo, A., Garzon, I.L., Noguez,C. First-principles calculations of circular dichroismof ligand-protected gold nanoparticles, 2009,European Physical Journal D 52 (1-3) , pp. 179-1821972. Hidalgo, F; Noguez, C Optically active nanoparticles:Fullerenes, carbon nanotubes, and metal nanoparticles,PHYSICA STATUS SOLIDI B-BASIC SOLIDSTATE PHYSICS 247 (8): 1889-1897 AUG 20101973. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)ArtículoTheoretical Study of Surface Plasmon Resonances inHollow Gold-Silver Double-shell Nanostructures, C.E.Román-Velźquez, Cecilia Noguez, J.J. Zhang, Journalof Physical Chemistry A 113 4068 – 4074 (2009)Lo citan (1):1974. Roman-Velazquez, CE; Cecilia Noguez, Designingthe plasmonic response of shell nanoparticles: Spectralrepresentation, JOURNAL OF CHEMICAL PHYSICS134 (4): Art. No. 044116 JAN 28 2011ArtículoPlasmonic Optical Properties and Applications of MetalNanostructures, Zhang JZ, Cecilia Noguez, Plasmonics3, 127 (2008)Lo citan (3):1975. Noguez, C; Sanchez-Castillo, A; Hidalgo, F Roleof Morphology in the Enhanced Optical Activity ofLigand-Protected Metal Nanoparticles, JOURNAL OFPHYSICAL CHEMISTRY LETTERS 2 (9): 1038-1044MAY 5 20111976. Angulo, AM; Cecilia Noguez; Schatz, GC ElectromagneticField Enhancement for Wedge-Shaped MetalNanostructures, JOURNAL OF PHYSICAL CHE-MISTRY LETTERS 2 (16): 1978-1983 20111977. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)ArtículoOptically active nanoparticles, Cecilia Noguez, I.L.Garzón, Chemical Society Reviews 38, 757 – 771 (2009).Lo citan (4):1978. Hidalgo, F; Sanchez-Castillo, A; Garzon, IL; Noguez,C, First-principles calculations of circular dichroismof ligand-protected gold nanoparticles, Euro Phys J D52, 179 (2009)1979. 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911981. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)ArtículoFirst-principles calculations of circular dichroism of bareand ligand-protected gold nanoparticles, F. Hidalgo, A.Sánchez-Castillo, I.L. Garzón, Cecilia Noguez, Eur.Phys. J. D 52, 179 – 182 (2009).Lo citan (5):1982. Noguez Cecilia; Garzon Ignacio L. Optically active metalnanoparticles, CHEMICAL SOCIETY REVIEWS38, 757-771 20091983. Sanchez-Castillo Ariadna; Noguez Cecilia; Garzon IgnacioL. On the Origin of the Optical Activity Displayedby Chiral-Ligand-Protected Metallic Nanoclusters,JOURNAL OF THE AMERICAN CHEMICAL SO-CIETY 132, 1504 20101984. Hidalgo, F; Noguez, C Optically active nanoparticles:Fullerenes, carbon nanotubes, and metal nanoparticles,PHYSICA STATUS SOLIDI B-BASIC SOLIDSTATE PHYSICS 247 (8): 1889-1897 AUG 20101985. Noguez, C; Sanchez-Castillo, A; Hidalgo, F Roleof Morphology in the Enhanced Optical Activity ofLigand-Protected Metal Nanoparticles, JOURNAL OFPHYSICAL CHEMISTRY LETTERS 2 (9): 1038-1044MAY 5 20111986. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)ArtículoEfficient First-Principles Method for Circular Dichroismof Nanostructures, F. Hidalgo, A. Sánchez-Castillo, CeciliaNoguez, Physical Review B 79, 075438 (2009).Lo citan (5):1987. Sanchez-Castillo, A; Noguez, C; Garzon, IL, Journalof the American Chemical Society (Communication)132, 1504–1505 (2010)1988. Sanchez-Castillo, A; Noguez, C Understanding OpticalActivity in Single-Walled Carbon Nanotubes fromFirst-Principles Studies, JOURNAL OF PHYSICALCHEMISTRY C 114 (21): 9640-9644 JUN 3 20101989. 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Hidalgo, F; Noguez, C Optically active nanoparticles:Fullerenes, carbon nanotubes, and metal nanoparticles,PHYSICA STATUS SOLIDI B-BASIC SOLIDSTATE PHYSICS 247 (8): 1889-1897 AUG 20101993. Noguez, C; Sanchez-Castillo, A; Hidalgo, F Roleof Morphology in the Enhanced Optical Activity ofLigand-Protected Metal Nanoparticles, JOURNAL OFPHYSICAL CHEMISTRY LETTERS 2 (9): 1038-1044MAY 5 20111994. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)ArtículoUnderstanding optical activity in single-wall carbon nanotubesfrom first-principles studies, A. Sanchez-Castillo,Cecilia Noguez, The Journal of Physical Chemistry C114, 9640 (2010)Lo citan (2):1995. Hidalgo, F; Noguez, C Optically active nanoparticles:Fullerenes, carbon nanotubes, and metal nanoparticles,PHYSICA STATUS SOLIDI B-BASIC SOLIDSTATE PHYSICS 247 (8): 1889-1897 AUG 20101996. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)ArtículoOptically active nanoparticles: Fullerenes, carbon nanotubes,and metal nanoparticles, Hidalgo, F; Cecilia Noguez,PHYSICA STATUS SOLIDI B-BASIC SOLIDSTATE PHYSICS 247 (8): 1889-1897 AUG 2010Lo citan (2):1997. Noguez, C; Sanchez-Castillo, A; Hidalgo, F Roleof Morphology in the Enhanced Optical Activity ofLigand-Protected Metal Nanoparticles, JOURNAL OFPHYSICAL CHEMISTRY LETTERS 2 (9): 1038-1044MAY 5 20111998. Hidalgo, F; Noguez, C Optical Activity of Achiral LigandSCH3 Adsorbed on Achiral Ag-55 Clusters: Relationshipbetween Adsorption Site and Circular Dichroism,ACS Nano, 7 (1):513-521 (2013)ArtículoElectromagnetic Field Enhancement at the Edge of MetalNanostructures,Angulo, Ali; Cecilia Noguez; Schatz,George The Journal of Physical Chemistry Letters2,1978–1983 (2011)Lo citan (1):1999. Gonzalez, AL; Cecilia Noguez; Barnard, AS Mapof the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, JOURNAL OFPHYSICAL CHEMISTRY C, 116 (26):14170-14175;10.1021/jp3047906 JUL 5 2012ArtículoDesigning the plasmonic response of shell nanoparticles:spectral representation, C. E. Román-Velázquez,Cecilia Noguez, Journal of Chemical Physics114(4),044116-1 – 044116-14 (2011).Lo citan (2):2000. Gonzalez, AL; Cecilia Noguez; Barnard, AS Mapof the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, JOURNAL OFPHYSICAL CHEMISTRY C, 116 (26):14170-14175;10.1021/jp3047906 JUL 5 20122001. Gonzalez, AL; Noguez, C; Barnard, AS Mapping thestructural and optical properties of anisotropic goldnanoparticles, JOURNAL OF MATERIALS CHE-MISTRY C, 1 (18):3150-3157; 10.1039/c3tc30313f 2013ArtículoRole of morphology in the enhanced optical activity ofligand-protected metal nanoparticles, Cecilia Noguez,Sanchez-Castillo, A., Hidalgo, F. J. Phys. Chem. 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92Map of the Structural and Optical Properties of Gold Nanoparticlesat Thermal Equilibrium, Gonzalez, AL; CeciliaNoguez; Barnard, AS The Journal of Physical ChemistryC 116 (26):14170-14175 (2012)Lo citan (1):2003. Gonzalez, AL; Noguez, C; Barnard, AS Mapping thestructural and optical properties of anisotropic goldnanoparticles, JOURNAL OF MATERIALS CHE-MISTRY C, 1 (18):3150-3157; 10.1039/c3tc30313f 2013Memoria:Optical signature of the GaN(1010) surface, CeciliaNoguez, R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloaand D.A. Drabold, MRS Symposium Proceedings Vol.449, 911 (1997); editado por F.A. Ponce, T.D. Moustakas,I. Akasaki, B.A. Monemar.Lo citan (1):2004. Cecilia Noguez, Electron energy-loss spectra of nonpolarGaN surfaces, Phys Status Solidi A 175, 57(1999)Memoria:Optical Characterization of a Spheroidal Nanoparticle ona Substrate, Carlos E. Román-Velázquez, Cecilia Noguez,R.G. Barrera, MRS Symposium Proceedings 581,485 (2000); Nanophase and Nanocomposite Materials III,Editores: S. Komarneni, J.C. Parker, H. Hahn.Lo citan (1):2005. Cecilia Noguez, Surface Plasmons on Metal Nanoparticles:The Influence of Shape and Physical Environment,J Phys Chem C 111, 3806 (2007)Memoria:Light Scattering of isolated nanoparticles with arbitraryshapes, Cecilia Noguez, I Sosa, R G Barrera. 2001FALL MEETING PROCEEDINGS, Symposium W NanoparticulateMaterials, Editors: R.K. Singh, R. Partch, M.Muhammed, M. Senna, H. Hofmann, MRS Proceedings704, 275 (2002).Lo citan (1):2006. Sosa IO, Cecilia Noguez, Barrera RG. Optical propertiesof metal nanoparticles with arbitrary shapes, JPhys Chem B 107, 6269 (2003)Memoria:Casimir force between a sphere and a plane: spectral representationformalism, Cecilia Noguez, C. E. Román-Velázquez, page 97, en las memorias de “Quantum FieldTheory Under the Influence of External Conditions”, Ed.K. Milton, Paramus, NJ, 2004. Rinton Press.Lo citan (1):2007. C. E. Román-Velázquez, Cecilia Noguez, C. Villarreal,and R. Esquivel-Sirvent Spectral representationof the nonretarded dispersive force between a sphereand a substrate, Phys Rev A 69, 042109 (2004)XIII. RELACIÓN DE PRESENTACIONES ORALES Y EN POSTERS (235)A. Por invitación (118) se encuentran en la sección V.B. Presentaciones orales en congresos (69)235. Adsorption energy of methyl thiol on silver nanoclusters:size dependence, D. Becerril, F. Hidalgo, CeciliaNoguez, XXII International Materials Research Congress,11-15 Agosto 2013, Cancun, Mexico234. On the Absolute Configuration of SemiconductorSingle-Walled Carbon Nanotubes Cecilia Noguez,Ariadna Sanchez-Castillo, 14th International Conferenceof Chiroptical Spectroscopy, Vanderbilt University,Nashville, TN, USA, June 9-13, 2013233. Temperature and Shape Dependent Optical Propertiesof Gold Nanoparticles, Ana L. Gonzalez, Cecilia Noguez,A. S. Barnard, V International Conference onSurfaces, Materials and Vacuum 2012, México, Septiembrede 2012.232. Optical activity and its relationship with adsorptionsite and nanoparticle size of Agx-SCH3, Hidalgo, F.;Cecilia Noguez, EpiOptics12-School, Italia, Julio de2012.231. Optical activity in the Ag55-SCH3 compound, Hidalgo,F.; Cecilia Noguez, Pan-American Advanced StudiesInstitute Computational Material Science for EnergyGeneration and Conversion, Chile, TEnero de 2012.230. Determination of the absolute handedness in semiconductorcarbon nanotubes, Ariadna Sanchez-Castillo,Cecilia Noguez, Optics of Surfaces and Interfaces 9,Septiembre, 2011229. Color Catalogue of Gold Nanoparticles as a Functionof Size and Temperature, Ana L. Gonzalez, CeciliaNoguez, Amanda Banard, Optics of Surfaces and Interfaces9, Septiembre, 2011228. Surface Plasmon Resonance in Single Metal Nanoparticlesand 1D-Nanostructure Arrays for the Controlof Enhanced Spectroscopies, C. E. Román-Velázquez,Cecilia Noguez, Nanostructured Material and NanotechnologySimposium 1, of the XIX International MaterialsResearch Congress, Agosto, 2010.227. On the origin of optical activity in chiral nanostructures,Cecilia Noguez, A. Sánchez-Castillo, IX BrazilianMRS Meeting 2010, Octubre, 2010.226. Estudio de los Plasmones de Superficie de NanoshellsMultiples, C. E. Román-Velázquez y Cecilia Noguez,LII Congreso Nacional de Física, Acapulco Gro., octubre26-30 2009.225. Surface Enhanced Raman Scattering (SERS) on a metallicwedge, Alí M. Angulo Martínez y Cecilia Noguez,4th CANADA-AMERICA-MEXICO GraduateStudent Physics Conference, Acapulco Gro., October22 - 24, 2009224. Circular dichroism of passivated gold nanoclusters, A.Sánchez-Castillo, Cecilia Noguez, Symposium ProtectedMetallic Clusters, Quantum Wells and MetalnanocrystalMolecules, American Chemical Society238th National Meeting 16–20 August, 2009, WashingtonDC EU.223. Chirality, optical activity, and enantiospecific adsorptionin gold clusters, I. E. Santizo, F. Hidalgo-Moreno, L. A. Pérez, Cecilia Noguez, I L. Garzón,XIV International Symposium on Small Particles andInorganic Clusters, Valladolid, Spain September 15-19,2008.222. Ab initio Calculations of the Circular Dichroism inChiral Fullerenes and Bare and Passivated gold nanoclusters,F. Hidalgo, A. Sánchez-Castillo, Ignacio L.Garzón, Cecilia Noguez,EPIOPTICS-10 International School of Solid StatePhysics, Erice - Sicily, 20 - 27 June 2008.

93221. Optical circular dichroism of bare and passivated Auchiral clusters Cecilia Noguez, A. Sánchez-Castillo,F. Hidalgo, Ignacio L. Garzón, American Chemical Society,March Meeting, Chicago (2007).220. First Principle Calculation of Circular Dichroism inCarbon Nanotubles, A. Sanchez-Castillo, Cecilia Noguez,Chirality 2007, San Diego California, 8 –11 deJulio.219. Optical circular dichroism of bare and passivated Aunanoclusters, A. Sánchez-Castillo, F. J. Hidalgo, I.L.Garzón, and Cecilia Noguez, Internationa Conference“Chirality at the Nanoscal”, Sitges, Barcelona 17th- 21st September 2007.218. Interacting surface plasmons and the role of geometryon dispersive forces, Cecilia Noguez, CarlosRomán-Velźquez, Dispersion Forces and Nano-Electro-Mechanical Systems, Lorentz Center, Leiden Holanda,Dic. 9 – 15 (2006).217. Interacting surface plasmons between macroscopic bodies:geometrical effects on dispersive forces, CeciliaNoguez, Carlos Román-Velźquez, ”Seventh Workshopon Quantum Field Theory under the Influence ofExternal Conditions”, IEEC, CSIC and University ofBarcelona Barcelona, Catalonia, Spain, September 5-9,2005216. Optical properties of isolated and supported metal nanoparticles,Cecilia Noguez, Pacifichem 2005, Meeting,Honolulu, Hawaii.215. Optical properties of chiral nanostructures, CeciliaNoguez, Román-Velázquez Carlos E., Garzón IgnacioL. Annual APS March Meeting 2004, March 22 – 26,2004, Montreal, Quebec, Canada.214. Optical properties of chiral nanotubes, Cecilia Noguez,Román-Velázquez Carlos E., Sánchez Ariadna,Meza Montes Lilia, Annual APS March Meeting 2004,March 22 – 26, 2004, Montreal, Quebec, Canada.213. Cálculo de espectros de dicroismo circular de nanotubosquirales Ariadna Sánchez-Castillo, C. E. Román-Velázquez, Cecilia Noguez, L. Meza-Montes VI TallerNacional de Estudiantes de Posgrado en Física yCiencia de Materiales, Puebla 2004212. Estudio teórico de nanotubos de carbono por medio dedicroismo circular Ariadna Sánchez Castillo, Carlos E.Román Velázquez, Cecilia Noguez, y L. Meza MontesIX Encuentro Regional de Investigación y Enseñanzade la Física, Puebla, Junio 2004.211. Propiedades ópticas de nanoestructuras quirales, CeciliaNoguez, Congreso Interno Anual, Instituto deFisica, UNAM, México D.F. 11 – 13 de mayo 2004.210. Circular dichroism spectra of chiral gold nanoclusters,I.L. Garzon, C.E. Roman-Velazquez, Cecilia Noguez,March Meeting of the American Physical Society Austin,EUA Marzo 3-7, 2003.209. Chirality and circular dichroism spectra of gold nanoclusters,I.L. Garzon, C.E. Roman-Velazquez, CeciliaNoguez, 225th National Meeting of the American ChemicalSociety New Orleans, EUA Marzo 23-27, 2003.208. Optical Properties of the cleavage InAs(110) surfaceX. López-Lozano, Cecilia Noguez, L. Meza-MontesOptics of Surfaces and Interfaces V, León Guanajuato,México 26 – 30, 2003.207. High-Multipolar effects on dispersive forces between ananoparticle and a surface Cecilia Noguez, C.E.Román-Velázquez, C. Villarreal, and R. Esquivel-Sirvent Optics of Surfaces and Interfaces V, León Guanajuato,México 26 – 30, 2003.206. Spectral representation of the Casimir force between asphere and a substrate, Cecilia Noguez, C.E. Roman-Velazquez, C. Villarreal and R. Esquivel- Sirvent 8thInternational Conference on Squeezed States and UncertaintyRelations ICSSUR’2003, Puebla, México, June9-13, 2003.205. Optical Characterization of Metal Nanparticles withArbitrary Shapes Cecilia Noguez, Iván O. Sosa,Rubén G. Barrera X International Congress of CompositeEngineering: Nanocomposites (ICCE X) New OrleansJuly 20-26, 2003.204. Circular dichroism simulated spectra of chiral gold nanoclusters:A dipole approximation, Cecilia Noguez,C.E. Román-Velázquez, I.L. Garzón XII InternationalMaterials Research Congress, Cancún 17 – 22, 2003.203. Spectral representation of the Casimir Force Betweena Sphere and a Substrate C.E. Roman-Velazquez, CeciliaNoguez, C. Villarreal and R. Esquivel-Sirvent,Sixth Workshop on Quantum Field Theory under theInfluence of External Conditions, Norman Oklahoma,15 – 19, 2003202. Fuerzas de casimir de una nanopartícula en un substratoCecilia Noguez, C. Román Velázquez, C. Villarrealy R. Esquivel-Sirvent XLV Congreso Nacionalde Física, León Gto., octubre 2002.201. Propiedades electrónicas de superficies semiconductorasideales X. López Lozano, Cecilia Noguez, y L.Meza Montes V Taller de Estudiantes de Posgrado,Puebla 2002200. Propiedades electrónicas de las superficies semiconductorasideales GaAs e InAs X. López Lozano, CeciliaNoguez, y L. Meza Montes VIII Encuentro Regionalde Investigación y Enseñanza de la Física, Puebla2002.199. Electronic structure of the reconstructed surfaceInAs(110) X. López-Lozano, Cecilia Noguez, y L.Meza-Montes Sociedad Mexicana de Ciencia de Superficiesy Vacío A.C., XXII Congreso Nacional, Octubre2002.198. Dicroismo circular óptico de cúmulos atómicos de oroC. Román-Velázquez, Cecilia Noguez, y I.L. Garzón.XLV Congreso Nacional de Física, León Gto., octubre2002.197. Casimir foreces in non-homogeneous planar and sphericalsystems, Villarreal, C., Esquivel-Sirvent, R.,Mochán, L. y Cecilia Noguez, ITAMP Workshop2002: Casimir forces: recent developments in experimentsand theory, Harvard Cambridge, noviembre2002.196. Differential reflectance of a planar system of selfassembledquantum dots Ruben G. Barrera, CeciliaNoguez, Sergio E. Ulloa March Meeting, AtlantaGeorgia, 1999.195. Electron Energy-Loss for anisotropic systems: Applicationto GaN (10øverline10) Raul Esquivel-Sirvent,Cecilia NoguezMarch Meeting, Atlanta Georgia,1999.194. Viscoelastic porperties of colloidal suspensions R.Esquivel-Sirvent, Cecilia Noguez, G. Rámirez-Santiago Materials Research Society, Fall Meeting,Boston, Dic. 1999.193. Electron Energy-Loss and Optical Spectra of GaN(1010) and (110) surfaces Cecilia Noguez, MarchMeeting, Atlanta Georgia, marzo 1999.192. Optical properties of non-polar GaN surfaces CeciliaNoguez, The Third International Conference on NitrideSemiconductors Montpellier, Francia julio 5 – 9,1999.191. First-Principles calculations of optical properties of semiconductorsurfaces Cecilia Noguez, Materials ResearchSociety, Fall Meeting, Boston, Dic. 1999.190. Spectroscopic theoretical study of the atomic reconstructionof GaN (1010) Cecilia Noguez, InternationalMaterials Research Congress, Symposium 9, August30-September 4, Cancun, Mexico, 1998.

94189. Molecular Dynamics Simulations of Acoustic Propertiesof Colloidal Suspensions Cecilia Noguez, R.Esquivel-Sirvent, G. Ramírez-Santiago March Meeting,Los Angeles California, 1998.188. Theory of electron energy loss for anisotropic systems:Application to GaN (1010) Cecilia Noguez, and R.Esquivel Sirvent International Materials Research Congress,Symposium 9, August 30-September 4, Cancun,Mexico, 1998.187. Molecular Dynamic Simulations of acoustic propertiesof colloidal suspensions G. Ramírez-Santiago, R.Esquivel-Sirvent, Cecilia Noguez, MRS Fall 97 Meeting,Boston Mass. 1-5 diciembre, 1997.186. Optical signature of the GaN(1010) surface CeciliaNoguez, R. Esquivel-Sirvent, S.E. Ulloa and D.A. Drabold,March Meeting, Kansas City, 17-21 de marzo1997.185. Propiedades ópticas de la superficie de nitruro de galio(100) Heriberto Hernández Cocoletzi, Cecilia Noguez,R. Esquivel Sirvent Congreso Nacional de Física,Monterrey, octubre 1997.184. Theoretical and experimental optical spectroscopystudy of hydrogen adsorption on Si(111)-7×7 CeciliaNoguez, M. Roy, C. Beitia, Y. Borensztein, A.I.Shkrebtii and R. Del Sole March Meeting (APS Nationalmeeting), St. Louis, Missouri, 1996.183. Theoretical study of the optical properties of siliconclusters Cecilia Noguez, J. Song, S.E. Ulloa, D.A.Drabold and S.Y. Yang March Meeting (APS Nationalmeeting), St. Louis, Missouri, 1996.182. Theoretical study of the optical properties of siliconclusters Cecilia Noguez, J. Song, S.E. Ulloa, D.A.Drabold and S.Y. Yang EPIOPTICS 4, Erice- Sicily,Junio 9 al 14, 1996.181. Structure and Optical Properties of Silicon Clusters,S.E. Ulloa, Cecilia Noguez, J. Song, and D.A.Drabold International Materials Research Congress:CanCun-96, Symposium 15: Computational MaterialsScience: Theory and Simulation, Cancún 2-6 septiembre,1996.180. The role of hydrogen as a precusor of the 7×7 → 1×1phase transition of Si(111), Cecilia Noguez, S.E.Ulloa y D.A. Drabold, MRS Fall 96 Meeting, BostonMass. 2-6 de diciembre 1996.179. Acoustic response of laminated SiC ceramics R.Esquivel-Sirvent and Cecilia NoguezMarch Meeting(APS National meeting), St. Louis, Missouri, 1996.178. Structural, electronic and optical properties of hydrogenatedSi(111)-7×7 surfaces, Dominic Alfonso, CeciliaNoguez, D. A. Drabold y S. E. Ulloa, MarchMeeting (APS National meeting), San Jose California,1995.177. Elastic wave propagation in quasi-periodic superlattices,H. Guerrero, R. Esquivel-Sirvent, Cecilia Noguezy S. E. Ulloa, March Meeting (APS Nationalmeeting), San Jose California, 1995.176. Optical spectroscopy study of hydrogenation of theSi(111)-7×7 surface, M. Roy, Y. Borensztein, A. Shkrebtii,Cecilia Noguez y R. Del Sole, ICFSI Conference,Princeton, junio 1995.175. Multipolar Effects on a Linear Chain of Disorder PolarizableSpheres, Cecilia Noguez, Rubén G. Barreray Francisco Claro, March Meeting (APS National meeting),San Jose California, 1995.174. Theoretical studies of the optical properties of diamondsurfaces, Cecilia Noguez, Dominic Alfonso, S. E.Ulloa y D. A. Drabold, March Meeting (APS Nationalmeeting), San Jose California, 1995.173. Elastic wave propagation in randomly disordered layeredmedia, R. Esquivel-Sirvent y Cecilia Noguez,127th Meeting of the Acoustical Society of America,Boston Mass., junio 1994.172. Numerical simulation for the effective susceptibility ofa one-dimensional disordered chain of polarizable spheres,Cecilia Noguezy Rubén G. Barrera, MarchMeeting, Seattle, 1993.171. Approach to the calculation of the Si(111)-7×7 opticalproperties, Cecilia Noguez, A.I. Shkrebtii y R. DelSole, 18th annual meeting, advances in surface and interfacephysics, Modena, Italy, diciembre 1993.170. Función dieléctrica efectiva de una cadena lineal de esferaspolarizables, Cecilia Noguez, Rubén G. Barreray Pedro Villaseñor-González, XXXV Congreso Nacionalde Física, Puebla, México, octubre 1992.169. Effective dielectric response of 1D composites, CeciliaNoguez, y Rubén G. Barrera, 38th Scottish SummerSchool of Physics: Physics of Nanostructures, St.Andrews Escocia, julio 1991.168. The dielectric response of a chain of disordered polarizablespheres: numerical simulation and theory, CeciliaNoguez, Pedro Villaseñor-González y Rubén G.Barrera, Material Research Society Fall Meeting, Boston,diciembre 1991.167. La respuesta dieléctrica efectiva de un compuesto: unanueva aproximación diagramática., Cecilia Noguez yRubén G. Barrera, XXXIII Congreso Nacional de Física.Ensenada Baja California, México, octubre 1990.C. Presentaciones en carteles (48)166. Understanding optical activity in organometallic nanoparticles,F. Hidalgo, Cecilia Noguez, 14th InternationalConference of Chiroptical Spectroscopy; VanderbiltUniversity; Nashville, Tennessee, USA; 9-13 junio2013165. Map of the Structural and Optical Properties ofGold Nanoparticles at Thermal Equilibrium, Gonzalez,A.L.; Cecilia Noguez; Barnard, A.S., GordonConference “Plasmonics: Light-Matter Interaction atthe Nanoscale”, Estados Unidos de América, Junio de2012.164. Optical Activity in the Ag 55 SCH 3 Compound: Relationshipbetween Circular Dichroism spectra and adsorptionsite, Francisco Hidalgo, Cecilia Noguez,XXXVII CONGRESO DE QUIMICOS TEORICOSDE EXPRESION LATINA (QUITEL 2011), Diciembre,2011163. Catálogo de Colores de Nanopartículas de Oro enfunción del tamaño y temperatura, Ana L. Gonzalez,Amanda Banard, Cecilia Noguez, Poster, 1er ColoquioFisico Nano 2011, Octubre, 2011162. The role of ligands in metallic gold clusters, AriadnaSanchez Castillo, Cecilia Noguez, Optics of Surfacesand Interfaces 9, Septiembre, 2011161. Electromagnetic Field Enhancement at the Edge ofMetal nanostructures, Ali M Angulo, Cecilia Noguez,Optics of Surfaces and Interfaces 9, Septiembre,2011160. Optical Activity in the Ag 55 SCH 3 Compound: Relationshipbetween Circular Dichroism spectra and ad-

95sorption site, Francisco Hidalgo, Cecilia Noguez,Optics of Surfaces and Interfaces 9, Septiembre, 2011159. Surface Enhanced Raman Scattering at the edge ofmetallic Nanoparticles, Angulo-Martinez, A, Roman-Velazquez, C, Cecilia Noguez, XV InternationalSymposium on Small Clusters and Inorganic Clusters,Septiembre, 2010.158. On the Origin of the Optical Activity Displayedby Chiral- Ligand-Protected Metallic Nanoclusters,Sanchez-Castillo, A, I.L. Garzon, Cecilia Noguez,XV International Symposium on Small Clusters andInorganic Clusters, Septiembre, 2010.157. Optical activity in single-wall carbon nanotubes,Sanchez-Castillo, A, Cecilia Noguez, XV InternationalSymposium on Small Clusters and Inorganic Clusters,Septiembre, 2010.156. Plasmonic Metal Nanoparticles, Cecilia Noguez,Gonzalez, A.L, IX Brazilian MRS Meeting 2010, Octubre,2010.155. On the origin of optical activity of ligand-protected metalnanoclsters, A. Sánchez-Castillo, Cecilia Noguez,Gordon Research Conference on Noble Metal NanoparticlesatMount Holyoke College in South Hadley, MA,June 2010154. Estudio del engrandecimiento extraordinario del campoelectromagnético en la vecindad de nanopartículasmetálicas y su importancia en el efecto SERS, Alí M.Angulo Martínez y Cecilia Noguez, LII CongresoNacional de Física, Acapulco Gro., octubre 2009.153. Electronic Circular Dichroism of Single-Wall CarbonNanotubes, A. Sánchez-Castillo, Cecilia Noguez,XIV International Symposium on Small Particles andInorganic Clusters, Valladolid, Spain September 15-19,2008.152. Optical circular dichroism of bare and passivated Aunanoclusters, F. Hidalgo-Moreno, I. L. Garzón, CeciliaNoguez, XIV International Symposium on SmallParticles and Inorganic Clusters, Valladolid, Spain,September 15-19, 2008.151. Circular Dichroism of Gold Nanoclusters, F. J. Hidalgoand Cecilia Noguez, PASI2007: Panamerican AdvancedStudy Institute, Electronic States and Excitationson Nanostructures, Zacatecas, Mexico, june 11 to22, 2007.150. First Principle calculations of electronic and opticalproperties of five-fold Ag clusters, Alí M. Anguloand Cecilia Noguez, PASI2007: Panamerican AdvancedStudy Institute, Electronic States and Excitationson Nanostructures, Zacatecas, Mexico, june 11 to 22,2007.149. First Principles Calculations of Circular Dichroism inCarbon Nanotubes, A. Sánchez-Castillo and CeciliaNoguez, PASI2007: Panamerican Advanced Study Institute,Electronic States and Excitations on Nanostructures,Zacatecas, Mexico, june 11 to 22, 2007.148. Light extinction of regular shape metal nanoparticles,A. L. González and Cecilia Noguez, PASI2007: PanamericanAdvanced Study Institute, Electronic Statesand Excitations on Nanostructures, Zacatecas, Mexico,june 11 to 22, 2007.147. Surface Plasmon Resonances of Metal Polyhedral Nanoparticles,A. L. González y Cecilia Noguez, Nanotech2006, May 7-11, 2006, in Boston, Massachusetts,U.S.A.146. Dinámica Molecular de clusters de plata, Alí M. Angulo,Cecilia Noguez, Congreso Nacional de Fisica,San Luis Potosí, México, octubre 2006.145. Tuning surface plasmon on metal nanoparticles, CeciliaNoguez, Gordon Research Conference on Plasmonics,Keene, New Hampshire, July 23 – 28 (2006).144. Dispersive forces from interacting surface plasmon betweena spheroid and a plane: the role of geometry,Carlos Román-Velźquez, Cecilia Noguez, ”SeventhWorkshop on Quantum Field Theory under the Influenceof External Conditions”, IEEC, CSIC and Universityof Barcelona, Barcelona, Catalonia, Spain, September5-9, 2005143. Dependencia geométrica de las resonancias deplasmón de superficie para nanopartćulas de plata deformas poliedrales, A. L. González, y Cecilia Noguez,XLVIII Congreso Nacional de Física del 17 al 21de octubre del 2005 en Guadalajara, Jal.142. Circular Dichroism Spectra of Chiral Single-Wall CarbonNanotubes, A. Sánchez-Castillo, Carlos E. Román-Velázquez, Cecilia Noguez, L. Meza-Montes, InternationalConference on the Science and Application ofNanotubes July 19–24, 2004, San Luis Potosí México.141. Propiedades ópticas de nanopartículas metálicasesféricas, A. L. González, G. P. Ortíz, Cecilia Noguez,XLVII Congreso Nacional de Física del 25 al 29de octubre del 2004, Hermosillo, Son.140. Anisotropic electronic and optical properties of In nanowireson Si(111) X. López-Lozano, F. Bechstedt, J.Furtmueller, A. A. Stekolnikov, Cecilia Noguez, andL. Meza- Montes VIII European Conference on SurfaceCrystallography and Dynamics, Segovia España, Julio2004.139. Electronic properties of the cleavage InAs(110) surfaceX. López-Lozano, Cecilia Noguez, L. Meza-MontesThird San Luis Symposium on Surfaces, Interfaces andCatalysis Mérida, Venezuela, marzo 31 a abril 4, 2003.138. Electronic and optical properties of InAs(110) X.López-Lozano, Cecilia Noguez, L. Meza-Montes PanAmerican Advanced Studies Institute on Physics at theNanometer Scale, San Carlos de Bariloche, Argentina,8-18 June, 2003.137. Optical Properties of Metal Nanoparticles with ArbitraryShapes, Iván O. Sosa, Cecilia Noguez, andRubén G. Barrera Pan American Advanced StudiesInstitute on Physics at the Nanometer Scale, San Carlosde Bariloche, Argentina, 8-18 June, 2003.136. Dispersive forces at the nanometer scale, Cecilia Noguez,C.E. Román-Velázquez XII International MaterialsResearch Congress, Cancún 17 – 22, 2003.135. Circular Dichroism of gold nanoclusters C. Román-Velázquez, Cecilia Noguez, y I.L. Garzón. InternationalSymposium of Small Particles and Inorganic ClustersXI, Strasburgo Francia, Septiembre 2002.134. Estructura electrónica de la superficie InAs(110) reconstruidaX. López-Lozano, Cecilia Noguez, y L.Meza-Montes XLV Congreso Nacional de Física, LeónGto., octubre 2002.133. Casimir forces between a nanoparticle and a substrateC. Román Velázquez, Cecilia Noguez, C. Villarrealy R. Esquivel-Sirvent Materials Research Society, FallMeeting, Boston, Diciembre. 2002.132. Estructura electrónica de la superficie relajadaInAs(110) X. López Lozano, Cecilia Noguez, y L.Meza Montes XVI Simposio Latinoamericano de Físicadel Estado Sólido, Mérida, Venezuela, Dic. 2002.131. Light scattering by suspended nanoparticles Iván O.Sosa, Cecilia Noguez, R.G. Barrera Materials ResearchSociety, Fall Meeting, Boston, Nov. 2001.130. Light scattering by supported and suspended nanoparticlesIván O. Sosa, Cecilia Noguez, R.G. BarreraPASI Nanoscience and technology at the nanometerscale, Costa Rica, Jun. 2001129. Casimir Forces between thermally activated nanocompositesRaúl Esquivel-Sirvent, C. Villarreal, CeciliaNoguezMaterials Research Society, Fall Meeting, Boston,Nov. 2001.

96128. Spectral representation of the optical response of aspheroidal particle on a substrate Carlos E. Román-Velazquez, Cecilia Noguez, Rubén G. BarreraWorkshop on Surface and Interface Optics, 1999 SainteMaxime, France, 4 – 9 May.127. Theory of electron energy loss spectroscopy for anisotropicsystems: application to GaN surfaces CeciliaNoguez, Workshop on Surface and Interface Optics,1999, Sainte Maxime, France, 4 – 9 May.126. Optical characterization of a spheroidal nanoparticleon a substrate C.E. Román-Velázquez, Cecilia Noguez,R.G. Barrera Materials Research Society, FallMeeting, Boston, Dic. 1999.125. Size dependence of the optical properties of siliconclusters Cecilia Noguez, J. Song, S.E. Ulloa, D.A.Drabold and S.Y. Yang Third International Symposiumof Nanostructures and Mesoscopic systems, SantaFe, New Mexico, mayo 1996.124. Optical signature of the GaN(1010) surface CeciliaNoguez, R. Esquivel-Sirvent, D.R. Alfonso, S.E. Ulloaand D.A. Drabold, MRS Fall 96 Meeting, Boston Mass.2-6 de diciembre 1996.123. Acoustic signature of defects of SiC/porous SiC laminatedceramics R. Esquivel-Sirvent, Cecilia Noguez,MRS Fall 96 Meeting, Boston Mass. 2-6 diciembre,1996.122. Microscopic theory of the optical properties of Si(111)-7×7, Cecilia Noguez, A.I. Shkrebtii y R. Del Sole,22nd International Conference on the Physics of Semiconductors,Vancouver, Canada, agosto 14-19, 1994.121. The disorder effects on the effective dielectric responseof a linear chain of polarizable spheres, CeciliaNoguezy Rubén G. Barrera, Third International Conferenceon Electrical Transport and Optical Propertiesof Inhomogeneous Media (ETOPIM3), GuanajuatoMéxico, agosto 1993.120. Estudio experimental de las perturbaciones en unapelícula delgada descendente, Cecilia Noguez yRamón Peralta-Fabi, XXXII Congreso Nacional deFísica., León Guanajuato, México, octubre 1989.119. Nueva suma diagramática para la respuesta dieléctricaefectiva, Cecilia Noguez y Rubén G. Barrera, VEscuela Mexicana de Física Estadística, Oaxtepec Morelos,México, agosto 1989.