CURRICULUM VITAE - UNAM

821736. Ben-Moshe, A., Maoz, B.M., Govorov, A.O., Markovich,G. Chirality and chiroptical effects in inorganicnanocrystal systems with plasmon and exciton resonances,2013, Chemical Society Reviews 42 (16) , pp.7028-70411737. Koktan, J., Rezanka, P., Matejka, P., Kral, V. Stanovenipomeru enantiomeru L- a D-cysteinu pomocinanocastic stribra — [Determination of the ratio ofenantiomers L-and D-cysteine using silver nanoparticles],2013, Chemicke Listy 107 (SPEC. ISSUE 2) , pp.s240-s242ArtículoTheoretical Study of Surface Plasmon Resonances inHollow Gold-Silver Double-shell Nanostructures, C.E.Román-Velźquez, Cecilia Noguez, J.J. Zhang, J. PhysicalChemistry A 113 4068 – 4074 (2009)Lo citan (10):1738. Bakshi, MS, A Simple Method of Superlattice Formation:Step-by-Step Evaluation of Crystal Growthof Gold Nanoparticles through Seed-Growth Method,Langmuir 25, 12697 (2009)1739. Q Zha, R Q Snurr, Self-Diffusion Studies of BinaryMixtures in NaX Zeolites Using Pulsed Field GradientNMR and a Maxwell-Stefan Model, J. Phys. Chem. A113, 3904 (2009)1740. Amendola, V; Bakr, OM; Stellacci, F A Study of theSurface Plasmon Resonance of Silver Nanoparticles bythe Discrete Dipole Approximation Method: Effect ofShape, Size, Structure, and Assembly, Plasmonics 5(1): 85 (2010)1741. JZ Zhang Biomedical Applications of Shape-ControlledPlasmonic Nanostructures: A Case Study of HollowGold Nanospheres for Photothermal Ablation Therapyof Cancer, J. Phys. Chem. Lett. 1, 686 (2010) (Perspective).1742. Chen, B; Jiao, XL; Chen, DR Fabrication of hollowcubic Ag microboxes with net-like nanofiber structuresand their surface plasmon resonance, Crystengcomm13 (1): 204-211 20111743. Hooshmand N, Jain PK, El-Sayed MA Plasmonic SpheroidalMetal Nanoshells Showing Larger Tunabilityand Stronger Near Fields Than Their Spherical Counterparts:An Effect of Enhanced Plasmon Coupling, J.Phys. Chem. Lett. 2, 374-378 20111744. Chassagneux, F; Bois, L; Simon, JP; Desroches, C;Brioude, A Elaboration and characterization of bimetallicgold-silver nanoparticles supported on mesostructuredsilica films, J. Material Chem. 21 (32): 11947-11955 20111745. Cao, S., Zhao, Z., Jin, X., Sheng, W., Li, S., Ge,Y., Dong, M., Wu, W., Fang, L. Unique doubleshelledhollow silica microspheres: Template-guidedself-assembly, tunable pore size, high thermal stability,and their application in removal of neutral red 2011 J.Materials Chemistry 21 (47), pp. 19124-191311746. Friedberg, R., Manassah, J.T. Tuning to the plasmoniceigenfrequency and determining its decay rate in a sphericalnoble metal nanoshell, 2012. Chemical PhysicsLetters 539-540 , pp. 118-1221747. Qian, XH; Bai, J Theoretical Studies of the OpticalProperties of Hollow Spherical Metallic Nanoshells,JOURNAL OF COMPUTATIONAL ANDTHEORETICAL NANOSCIENCE, 10 (10):2354-2360;10.1166/jctn.2013.3213 OCT 2013ArtículoEfficient First-Principles Method for Circular Dichroismof Nanostructures, F. Hidalgo, A. Sánchez-Castillo, CeciliaNoguez, Physical Review B 79, 075438 (2009).Lo citan (3):1748. M. Savoini, P. Biagioni, G. Lakhwani, S. C. J. Meskers,L. Duo, and M. Finazzi, Near-field circular polarizationprobed by chiral polyfluorene, Opt. Lett. 34, 3571(2009)1749. J D Correa , C G Rocha , A Latgé and M Pacheco, Probingoptical spectra of carbon nanotubes with externalfields, 2011 J. Phys.: Condens. Matter 23 0653011750. Guerrero-Martinez, A; Alonso-Gomez, JL; Auguie, B;Cid, MM; Liz-Marzan, LM From individual to collectivechirality in metal nanoparticles, Nano Today 6 (4):381-400 2011ArtículoFirst-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 (6):1751. M R. Provorse, C M. Aikens, Origin of Intense ChiropticalEffects in Undecagold Subnanometer Particles, J.Am. Chem. Soc. 132, 1302 (2010)1752. Shukla, N., Bartel, M.A., Gellman, A.J. Enantioselectiveseparation on chiral Au nanoparticles, 2010 J. theAmerican Chemical Society 132 (25), pp. 8575-85801753. Gautier, C; Burgi, T, Vibrational Circular Dichroismof Adsorbed Molecules: BINAS on Gold Nanoparticles,J. Phys. Chem. C 114 (38): 15897-15902 SEP 30 20101754. Morton, S.M., Silverstein, D.W., Jensen, L. Theoreticalstudies of plasmonics using electronic structure methods,2011 Chemical Reviews 111 (6), pp. 3962-39941755. Burgess, RW; Keast, VJ TDDFT Study of the OpticalAbsorption Spectra of Bare and Coated Au(55) andAu(69) Clusters, J. Phys. Chem. C 115 (43): 21016-21021 20111756. Mansfeld, D., Miersch, L., Rüffer, T., Schaarschmidt,D., Lang, H., Böhle, T., Troff, R.W., (...), Mehring, M.From Bi22O26 to chiral ligand-protected Bi 38O45-based bismuth oxido clusters, 2011 Chemistry - A EuropeanJournal 17 (52) , pp. 14805-14810ArtículoOn the origin of the optical activity displayed bychiral-ligand-protected metallic nanoclusters, A. Sanchez-Castillo, Cecilia Noguez, Ignacio L. Garzón, J. Am.Chem. Soc. (Communication) 132, 1504–1505 (2010).Lo citan (35):1757. Qian, HF; Zhu, Y; Jin, RC Isolation of Ubiquitous Au-40(SR)(24) Clusters from the 8 kDa Gold Clusters, J.Am. Chem. Soc. 132 (13): 4583 20101758. Zhu, M., Qian, H., Jin, R. Thiolate-ProtectedAu24(SC2H4Ph)20 nanoclusters: Superatoms or not?,Journal of Physical Chemistry Letters 1 (6), pp. 1003(2010)1759. Lopez-Acevedo, O; Tsunoyama, H; Tsukuda, T; Hakkinen,H; Aikens, CM Chirality and electronic structureof the thiolate-protected Au38 nanocluster, J. Am.Chem. Soc. 132, 8210 (2010)1760. J F. Parker, C A. Fields-Zinna, R W. Murray, TheStory of a Monodisperse Gold Nanoparticle: Au25L18,Acc. Chem. Res., Articles ASAP (As Soon As Publishable)Publication Date (Web): July 2, 2010 (Article)DOI: 10.1021/ar100048c1761. N Cathcart, V Kitaev Silver Nanoclusters: Single-Stage Scaleable Synthesis of Monodisperse Species andTheir Chirooptical Properties, J. Phys. Chem. C 114,16010-16017 20101762. Angel, L.A., Majors, L.T., Dharmaratne, A.C., Dass,A. Ion mobility mass spectrometry of Au25(SCH2CH2Ph)18 nanoclusters, (2010) ACS Nano, 4 (8) pp. 4691-4700.