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711399. Gong, YC; Zhou, Y; He, LB; Xie, B; Song, FQ;Han, M; Wang, GH Systemically tuning the surfaceplasmon resonance of high-density silver nanoparticlefilms, EUROPEAN PHYSICAL JOURNAL D, 67(4):10.1140/epjd/e2013-30540-9 APR 20131400. Yang, N., Li, W.-H.Mango peel extract mediated novelroute for synthesis of silver nanoparticles and antibacterialapplication of silver nanoparticles loaded ontonon-woven fabrics, (2013) Industrial Crops and Products,48 pp. 81-88.1401. Abraham, P.M., Barnikol, S., Baumann, T., Kuehn,M., Ivleva, N.P., Schaumann, G.E. Sorption of silvernanoparticles to environmental and model surfaces,(2013) Environmental Science and Technology, 47(10) pp. 5083-5091.1402. Jiang, X.-F., Pan, Y., Jiang, C., Zhao, T., Yuan,P., Venkatesan, T., Xu, Q.-H. Excitation nature oftwo-photon photoluminescence of gold nanorods andcoupled gold nanoparticles studied by two-pulse emissionmodulation spectroscopy, (2013) Journal of PhysicalChemistry Letters, 4 (10) pp. 1634-1638.1403. Hebie, S., Cornu, L., Napporn, T.W., Rousseau, J.,Kokoh, B.K. Insight on the surface structure effect offree gold nanorods on glucose electrooxidation, (2013)Journal of Physical Chemistry C, 117 (19) pp. 9872-9880.1404. Jiang, C., Zhao, T., Yuan, P., Gao, N., Pan, Y., Guan,Z., Zhou, N., Xu, Q.-H. Two-photon induced photoluminescenceand singlet oxygen generation from aggregatedgold nanoparticles, 2013, ACS Applied Materialsand Interfaces 5 (11) , pp. 4972-49771405. Tsuboi, A., Nakamura, K., Kobayashi, N. A localizedsurface plasmon resonance-based multicolor electrochromicdevice with electrochemically size-controlledsilver nanoparticles, 2013, Advanced Materials 25 (23), pp. 3197-32011406. Sugawa, K; Tanaka, D; Ichikawa, T; Takeshima, NDevelopment of Plasmon Resonance Sensing Basedon Alkylthiol-Coated Triangular Silver Nanoplates onGlass Plates, JAPANESE JOURNAL OF APPLIEDPHYSICS, 52 (4):SI 10.7567/JJAP.52.04CK06 2 APR20131407. Zou, XX; Tao, ZM; Asefa, T Semiconductor and PlasmonicPhotocatalysis for Selective Organic Transformations,CURRENT ORGANIC CHEMISTRY, 17(12):1274-1287; JUN 20131408. Kwak, J.-A., Lee, D.K., Jang, D.-J. Facile fabricationof platinum nanobubbles having efficient catalyticdegradation performances, 2013, Applied Catalysis B:Environmental 142-143 , pp. 323-3281409. Xu, Q., Liu, F., Liu, Y., Cui, K., Feng, X., Zhang, W.,Huang, Y. Broadband light absorption enhancement indye-sensitized solar cells with Au-Ag alloy popcorn nanoparticles,2013, Scientific Reports 3 , art. no. 21121410. Ajitha, B., Reddy, P.S. Influence of pH on the propertiesof PVA capped silver nanoparticles, 2013, AIPConference Proceedings 1536 , pp. 133-1341411. Tian, X.-D., Liu, B.-J., Li, J.-F., Yang, Z.-L., Ren, B.,Tian, Z.-Q. SHINERS and plasmonic properties of AuCore SiO2 shell nanoparticles with optimal core sizeand shell thickness, 2013, Journal of Raman Spectroscopy44 (7) , pp. 994-9981412. Bergamini, L., Corni, S. Benchmarking common approximationsfor determining the particle-size dependenceof adsorbate-induced localized surface plasmonresonance shifts, 2013, Journal of Physical ChemistryC 117 (28) , pp. 14742-147501413. Andrieux-Ledier, A., Tremblay, B., Courty, A. Synthesisof silver nanoparticles using different silver phosphineprecursors: Formation mechanism and size control,2013, Journal of Physical Chemistry C 117 (28) ,pp. 14850-148571414. Kedia, A; Kumar, PS Controlled reshaping and plasmontuning mechanism of gold nanostars, JOURNALOF MATERIALS CHEMISTRY C, 1 (30):4540-4549;20131415. Sugawa, K., Tanaka, D., Ichikawa, T., Takeshima, N.Development of plasmon resonance sensing based onalkylthiol-coated triangular silver nanoplates on glassplates, 2013, Japanese Journal of Applied Physics 52(4 PART 2) , art. no. 04CK061416. Maidecchi, G., Gonella, G., Proietti Zaccaria, R., Moroni,R., Anghinolfi, L., Giglia, A., Nannarone, S., (...),Bisio, F. Deep ultraviolet plasmon resonance in aluminumnanoparticle arrays, 2013, ACS Nano 7 (7) , pp.5834-58411417. Pudlauskaite, J., Jankauskaite, V., Lazauskas, A.,Prosycevas, I., Narmontas, P. Ag/DNQ-novolac-basednanocomposite films for controllable UV lithographymorphological patterning, 2013, Colloid and PolymerScience 291 (8) , pp. 1787-17931418. Fomichev, S.V., Bratkovsky, A.M. Unified hydrodynamicapproach to laser field plasmon excitations in metalnanoparticles with general shape, 2013, PhysicalReview B - Condensed Matter and Materials Physics88 (4) , art. no. 0454331419. Sim, H., Kim, S., Lee, J., Lee, H.J. Creating highly sensitiveand selective biochip sensors for the detection oforganophosphorus/carbamate pesticides, 2009, Journalof the Korean Industrial and Engineering Chemistry 20(6) , pp. 571-5801420. Sekhon, J.S., Malik, H.K., Verma, S.S. DDA simulationsof noble metal and alloy nanocubes for tunableoptical properties in biological imaging and sensing,2013, RSC Advances 3 (35) , pp. 15427-154341421. DeLacy, B.G., Qiu, W., Soljacic, M., Hsu, C.W., Miller,O.D., Johnson, S.G., Joannopoulos, J.D. Layer-bylayerself-assembly of plexcitonic nanoparticles, 2013,Optics Express 21 (16) , pp. 19103-191121422. Hung, L; Lee, SY; McGovern, O; Rabin, O; Mayergoyz,I Calculation and measurement of radiationcorrections for plasmon resonances in nanoparticles,PHYSICAL REVIEW B, 88 (7):10.1103/Phys-RevB.88.075424 AUG 19 20131423. Meng, XG; Fujita, K; Moriguchi, Y; Zong, YH; Tanaka,K Metal-Dielectric Core-Shell Nanoparticles: AdvancedPlasmonic Architectures Towards Multiple Controlof Random Lasers, ADVANCED OPTICAL MATE-RIALS, 1 (8):573-580; 10.1002/adom.201300153 AUG20131424. Hutter, T., Mahajan, S., Elliott, S.R. Near-field opticalenhancement by lead-sulfide quantum dots and metallicnanoparticles for SERS, 2013, Journal of RamanSpectroscopy 44 (9) , pp. 1292-12981425. Piccini, G., Havenith, R.W.A., Broer, R., Stener, M.Gold nanowires: A time-dependent density functionalassessment of plasmonic behavior, 2013, Journal ofPhysical Chemistry C 117 (33) , pp. 17196-172041426. Grachev, S., Grazia, M.D., Barthel, E., Sondergard, E.,Lazzari, R. Real-time monitoring of nanoparticle filmgrowth at high deposition rate with optical spectroscopyof plasmon resonances, 2013, J of Physics D: AppliedPhysics 46 (37) , art. no. 3753051427. Wei, Q., Wei, A. Plasmon-Resonant gold nanorods asmultifunctional agents for diagnostics, imaging andphotothermal therapy (Chapter), 2010, Handbook ofMaterials for Nanomedicine, ISBN: 978-981426755-7,DOI: 10.4032/97898142675881428. Cao, T., Zhang, L., Xiao, Z.-P., Huang, H. Enhancementand tunability of Fano resonance in symmetricmultilayer metamaterials at optical regime, 2013, Journalof Physics D: Applied Physics 46 (39) , art. no.395103
721429. Dikovska, AO; Alexandrov, MT; Atanasova, GB; Tsankov,NT; Stefanov, PK Silver nanoparticles producedby PLD in vacuum: role of the laser wavelengthused, APPLIED PHYSICS A-MATERIALS SCIENCE& PROCESSING, 113 (1):83-88; 10.1007/s00339-013-7834-9 OCT 20131430. Rejikumar, PR; Thomas, V; George, J; Joseph, C; Biju,PR; Unnikrishnan, NV Structural and plasmonic studiesof Ag nanoparticles in silica glass hosts, NATIO-NAL SEMINAR ON CURRENT TRENDS IN MA-TERIALS SCIENCE (CTMS-2011), 43 10.1088/1757-899X/43/1/012005 20131431. Sanz, J.M., Ortiz, D., Alcaraz De La Osa, R., Saiz,J.M., Gonz·lez, F., Brown, A.S., Losurdo, M., Everitt,H.O, Moreno, F. UV plasmonic behavior of variousmetal nanoparticles in the near- and far-field regimes:Geometry and substrate effects, 2013, Journal of PhysicalChemistry C 117 (38) , pp. 19606-196151432. Akin, Seckin; Karanfil, Gamze; Gultekin, Aytac; etal. Improvement of physical properties of CdO thinfilms by Au-Ag nanocluster codoping, JOURNAL OFALLOYS AND COMPOUNDS 579 Pages: 272-278DOI: 10.1016/j.jallcom.2013.06.059 20131433. Wang, F., Zhao, H., Lai, Y., Liu, S., Zhao, B., Ning,Y., Hu, X. Morphosynthesis of cubic silver cages onmonolithic activated carbon, 2013, Physical ChemistryChemical Physics 15 (42) , pp. 18367-183701434. Bhargava, A; Jain, N; Barathi, LM; Akhtar, MS; Yun,YS; Panwar, J Synthesis, characterization and mechanisticinsights of mycogenic iron oxide nanoparticles,JOURNAL OF NANOPARTICLE RESEARCH,15 (11):10.1007/s11051-013-2031-5 OCT 20 20131435. Zhou, Y., Yang, J., He, T., Shi, H., Cheng, X., Lu,Y. Highly stable and dispersive silver nanoparticlegraphenecomposites by a simple and low-energyconsumingapproach and their antimicrobial activity,2013, Small 9 (20) , pp. 3445-34541436. Au, L., Cobley, C.M., Chen, J., Xia, Y. Gold Nanocages:A Multifunctional Platform for Molecular OpticalImaging and Photothermal Treatment (Chapter),2011, Nanoplatform-Based Molecular ImagingArtículoOptical Properties of Silver Nanoparticles, A. L. González,Cecilia Noguez, Physica Status Soildi (c) 4 (11), 4118–4126 (2007)Lo citan (21):1437. N. I. Cade, T. Ritman-Meer, and D. Richards, Plasmonicengineering of silver films for enhanced fluorescenceand Raman scattering Progress in BiomedicalOptics and Imaging - Proceedings of SPIE 7192, art.no. 71920J (2009)1438. Zhao J, Pinchuk AO, Mcmahon JM, Li SZ1, AlismanLK, Atkinson AL, Schatz GC; Methods for Describingthe Electromagnetic Properties of Silver and GoldNanoparticles, Accounts of Chem. Research 41 1710(2008)1439. F W. Campbell, S R. Belding, R Baron, L Xiao, RG. Compton Hydrogen Peroxide Electroreduction at aSilver-Nanoparticle Array: Investigating NanoparticleSize and Coverage Effects, J. Phys. Chem. C 113, 9053(2009)1440. N I Cade, T Ritman-Meer, K A Kwakwa and D RichardsThe plasmonic engineering of metal nanoparticlesfor enhanced fluorescence and Raman scattering,Nanotechnology 20, 285201 (2009)1441. S Pruneanu, L Olenic, LB Tudoran,I Kacso, SAF Al-Said, R Hassanien, A Houlton, BR Horrocks, Preparationof 1D nanostructures using biomolecules, J. Phys.:Conf. Ser. 182, 012014 (2009)1442. Trinh LTT, Kjoniksen AL, Zhu KZ, Knudsen KD, VoldenS, Glomm WR, Nystrom B Slow salt-induced aggregationof citrate-covered silver particles in aqueoussolutions of cellulose derivatives, Colloid and PolymerScience 298, 1391 (2009)1443. F W. Campbell, S R. Belding, R Baron, L Xiao, R G.Compton The Hydrogen Evolution Reaction at a SilverNanoparticle Array and a Silver Macroelectrode Compared:Changed Electrode Kinetics between the MacroandNanoscales, J. Phys. Chem. C 113, 14852 (2009)1444. Trinh, L.T.T., Volden, S., Kjoniksen, A.-L., Zhu,K., Knudsen, K.D., Glomm, W.R., Nyström, B,Temperature-induced adsorption and optical propertiesof an amphiphilic diblock copolymer adsorbed onto flatand curved silver surfaces, Journal of Colloid and InterfaceScience 342, 142 (2010)1445. Torres Heredia, Victor Elias Silver nanostructures:chemical synthesis of colloids and composites nanoparticles,plamon resonance properties and silver nanoparticlesmonolayer films prepared by spin-coating,Director/a: Calderon Moreno, Jose Maria, UniversitatPolitecnica de Catalunya. Departament de Fisica AplicadaFecha de defensa: 08-11-2011Deposito Legal: B.42939-20111446. Rodríguez-Oliveros, R., Sánchez-Gil, J.A. Localizedsurface-plasmon resonances on single and coupled nanoparticlesthrough surface integral equations for flexiblesurfaces, 2011 Optics Express 19 (13), pp. 12208-122191447. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surfacemonitoring based on light scattering by metal nanosensors,JOURNAL OF QUANTITATIVE SPEC-TROSCOPY & RADIATIVE TRANSFER 112 (13):2046-2058 SI 20111448. Pullini, D., Carotenuto, G., Palomba, M., Mosca, A.,Horsewell, A., Nicolais, L. In situ synthesis of highdensitycontact-free Ag-nanoparticles for plasmon resonancepolystyrene nanocomposites, Journal of MaterialsScience 46 (24), pp. 7905-7911 20111449. Yuan, L; Zhu, J; Ren, YJ; Bai, SW Sectional areadependentplasmonic shifting in the truncated processof silver nanoparticles: from cube to octahedron,JOURNAL OF NANOPARTICLE RESEARCH, 13(12):6305-6312; 10.1007/s11051-011-0600-z DEC 20111450. Kruszewski, S., Cyrankiewicz, M. Aggregated silver solsas SERS substrates, (2012) Acta Physica Polonica A,121 (1 A) pp. A68-A74.1451. Logsdail, A.J., Johnston, R.L. Predicting the opticalproperties of core-shell and Janus segregated Au-M nanoparticles(M = Ag, Pd), 2012, Journal of PhysicalChemistry C 116 (44) , pp. 23616-236281452. R. Singhal, J.C. Pivin, R. Chandra, D.K. Avasthi,Ion irradiation studies of silver/amorphous carbon nanocompositethin film, Surface and Coatings Technology,Available online 8 June 2012, ISSN 0257-8972,10.1016/j.surfcoat.2012.05.131.1453. Szacilowski, Konrad Low-Dimensional Metals andSemiconductors, John Wiley & Sons, Ltd, doi:10.1002/9780470710883.ch4, pp 63–117 (2012)1454. Sukmanowski, J; Battie, Y; Royer, FX; Naciri,AE Determination of optical properties of percolatednanostructures using an optical resonatorsystem, JOURNAL OF APPLIED PHYSICS, 112(10):10.1063/1.4768202 NOV 15 20121455. N Harris, S Li, GC Schat Nanoparticles andtheory, AIP Conf. Proc. 1504, pp. 31-42;doi:http://dx.doi.org/10.1063/1.4771701 INTERNA-TIONAL CONFERENCE OF COMPUTATIONALMETHODS IN SCIENCES AND ENGINEERING2009: (ICCMSE 2009)
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.Cecilia NoguezCURRICULUM VITAE9 de
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XII. Citas capturadas (2007) 25A. C
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1985-1990 LICENCIATURA: FísicaInst
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2013 Conferencia Mapping Structural
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62. Pláticas invitadas nacionales
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2002 Plática en el Planetario de M
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10E. Organización de reuniones cie
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122004/07 Efecto casimir en materia
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145 publicaciones en el Phys. Rev.
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16Centro de Investigaciones en Opti
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J. of Comp. and Theo. Nanoscience 1
Page 23 and 24: 63. Surface Plasmons on Metal Nanop
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Page 29 and 30: 269. V. Kochergin, V. Zaporojtchenk
Page 31 and 32: 2874. Shkrebtii AI, Esser N, Richte
Page 33 and 34: 30143. Losio R, Altmann KN, Himpsel
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Page 43 and 44: 40465. Chen, CC; Yu, BH; Liu, P; Li
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Page 57 and 58: 54of Silver Nanoparticles Embedded
Page 59 and 60: 56The effect of volume fraction, 20
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Page 95 and 96: 92Map of the Structural and Optical
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