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831763. Wu ZK, Chen J, Jin RC One-Pot Synthesis of Au-25(SG)(18) 2-and 4-nm Gold Nanoparticles and Comparisonof Their Size-Dependent Properties, Adv. FunctionalMaterials 21, 177-183, JAN 7 20111764. Autschbach, J., Nitsch-Velasquez, L., Rudolph, M.Time-dependent density functional response theory forelectronic chiroptical properties of chiral molecules,(2011) Topics in Current Chemistry, 298 pp. 1-98.1765. Xia, YH; Zhou, YL; Tang, ZY Chiral inorganic nanoparticles:origin, optical properties and bioapplications,Nanoscale 3 (4): 1374-1382 20111766. Qi, H; Shopsowitz, KE; Hamad, WY; MacLachlan, MJChiral Nematic Assemblies of Silver Nanoparticles inMesoporous Silica Thin Films, J. Am. Chem. Soc. 133(11): 3728-3731 MAR 23 20111767. Wu, D., Zhang, X.-D., Liu, P.-X., Zhang, L.-A., Fan,F.-Y., Guo, M.-L. Gold nanostructure: Fabrication,surface modification, targeting imaging, and enhancedradiotherapy, 2011 Current Nanoscience 7 (1), pp. 110-1181768. Li MN, Du DY, Yang GS, Li SL, Lan YQ, Shao KZ,Qin JS, Su ZM 3D Chiral Microporous (10,3)-a TopologyMetal-Organic Framework Containing Large HelicalChannels, Crystal Growth & Design 11, 2510-251420111769. 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 20111770. Zhu, M., Qian, H., Meng, X., Jin, S., Wu, Z., Jin, R.Chiral Au25 nanospheres and nanorods: Synthesis andinsight into the origin of chirality, Nano Letters 11 (9),pp. 3963-3969 20111771. Forster, M., Dyer, M.S., Persson, M., Raval, R. Tailoringhomochirality at surfaces: Going beyond molecularhandedness, J. Am. Chem. Soc. 133 (40), pp.15992-16000 20111772. Jiang, D.-E. Staple fitness: A concept to understandand predict the structures of thiolated gold nanoclusters,Chemistry - A European Journal 17 (44), pp.12289-12293, 20111773. Qian, H., Zhu, M., Gayathri, C., Gil, R.R., Jin, R. Chiralityin gold nanoclusters probed by NMR spectroscopy,ACS Nano 5 (11) , pp. 8935-8942, 20111774. Ben Moshe, A; Szwarcman, D; Markovich, G Size Dependenceof Chiroptical Activity in Colloidal QuantumDots, ACS NANO 5 (11): 9034-9043 20111775. 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. 14805-148101776. Yao, H., Kitaoka, N., Sasaki, A. Chemical transformationof chiral monolayer-protected gold clusters: Observationof ligand size effects on optical and chiropticalresponses, Nanoscale 4 (3) , pp. 955-963, 20121777. Tlahuice, A; Garzon, IL On the structure of the Au-18(SR)(14) cluster, Phys. Chem. Chem. Phys., 14(11):3737-3740; 10.1039/c2cp24016e 20121778. Wang, J.-P., Yan, L.-K., Yang, G.-C., Guan, W., Su,Z.-M. TDDFT studies on the structures and ECDspectra of chiral bisarylimidos bearing different lengthsof o-alkoxy chain-substituted polyoxomolybdates, 2012Journal of Molecular Graphics and Modelling 35 , pp.49-561779. Hakkinen, H The gold-sulfur interface atthe nanoscale, Nature Chem., 4 (6):443-455;10.1038/NCHEM.1352 JUN 20121780. Liu, HL; Ye, YJ; Chen, J; Lin, DY; Jiang, Z; Liu, ZJ;Sun, B; Yang, LB; Liu, JH In Situ Photoreduced SilverNanoparticles on Cysteine: An Insight into the Originof Chirality, Chemistry-A European Journal, 18(26):8037-8041; 10.1002/chem.201200397 JUN 20121781. Aikens, C.M. Modelling small gold and silver nanoparticleswith electronic structure methods, 2012, MolecularSimulation 38 (8-9) , pp. 607-6141782. Xie, J., Duan, Y., Che, S., Chirality of metal nanoparticlesin chiral mesoporous silica, 2012, AdvancedFunctional Materials 22 (18) , pp. 3784-37921783. Qian, H., Zhu, M., Wu, Z., Jin, R. Quantum sized goldnanoclusters with atomic precision, 2012, AccountsChem. Res. 45 (9) , pp. 1470-14791784. Ben-Moshe, A., Govorov, A.O., Markovich, G. Enantioselectivesynthesis of intrinsically chiral mercurysulfide nanocrystals, 2013, Angewandte Chemie - InternationalEdition 52 (4) , pp. 1275-12791785. Du, DY; Yan, LK; Su, ZM; Li, SL; Lan, YQ;Wang, EB Chiral polyoxometalate-based materials:From design syntheses to functional applications,Coordination Chem Rev, 257 (3-4):702-717;10.1016/j.ccr.2012.10.004 FEB 20131786. Sang, Y.-M., Yan, L.-K., Ma, N.-N., Wang, J.-P.,Su, Z.-M. TDDFT studies on the determination ofthe absolute configurations and chiroptical propertiesof strandberg-type polyoxometalates, 2013, Journal ofPhysical Chemistry A 117 (12) , pp. 2492-24981787. Zeng, C., Li, T., Das, A., Rosi, N.L., Jin, R. Chiralstructure of thiolate-protected 28-gold-atom nanoclusterdetermined by X-ray crystallography, 2013, Journalof the American Chemical Society 135 (27) , pp. 10011-100131788. Jiang, D.-E. The expanding universe of thiolated goldnanoclusters and beyond, 2013, Nanoscale 5 (16) , pp.7149-71601789. Kurashige, W., Yamazoe, S., Kanehira, K., Tsukuda,T., Negishi, Y. Selenolate-protected Au38 nanoclusters:Isolation and structural characterization, 2013,J Phys Chem Letters 4 (18) , pp. 3181-31851790. 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.7028-70411791. Manzoor, D., Pal, S., Krishnamurty, S. Influence ofcharge and ligand on the finite temperature behaviorof gold clusters: A BOMD study on Au6 cluster, 2013,Journal of Physical Chemistry C 117 (40) , pp. 20982-20990ArtículoUnderstanding 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 (10):1792. Naoki Komatsu and Feng Wang A ComprehensiveReview on Separation Methods and Techniques forSingle-Walled Carbon Nanotubes, Materials 2010, 3(7),3818-3844; doi:10.3390/ma30738181793. F Wang, K Matsuda, A. F. M. Mustafizur Rahman, XPeng, T Kimura and N Komatsu, Simultaneous Discriminationof Handedness and Diameter of Single-Walled Carbon Nanotubes (SWNTs) with Chiral DiporphyrinNanotweezers Leading to Enrichment of aSingle Enantiomer of (6,5)-SWNTs, J. Am. Chem.Soc., 2010, 132 (31), pp 10876–108811794. Peng, XB; Wang, F; Bauri, AK; Rahman, AFMM; Komatsu,N Optical Resolution of Single-Walled CarbonNanotubes through Molecular Recognition with ChiralDiporphyrin Nanotweezers, Chem. Lett. 39 (10): 1022-1027 OCT 5 2010
841795. Wang, F., Matsuda, K., Rahman, A.F.M.M., Kimura,T., Komatsu, N. Improved selectivity in discriminatinghandedness and diameter of single-walled carbonnanotubes with N-substituted 3,6-carbazolylene-bridgedchiral diporphyrin nanotweezers, Nanoscale 3 (10), pp.4117-41241796. Srivastava, A.K., Pozhidaev, E.P., Chigrinov, V.G.,Manohar, R. Single walled carbon nano-tube, ferroelectricliquid crystal composites: Excellent diffractivetool, Applied Physics Letters 99 (20), art. no. 20110620111797. Tagliapietra, S; Cravotto, G; Gaudino, EC; Visentin,S; Mussi, V Functionalization of Single-WalledCarbon Nanotubes through 1,3-Cycloaddition of CarbonylYlides under Microwave Irradiation, SYNLETT,(10):1459-1462; 10.1055/s-0031-1290681 20121798. Ying, W., Shaochun, H., Yihong, O., Yu Ching, L.,Junjie, B., Yi, X. Microfabrication of photodetector basedon carbon nanotube array, 2012, Journal of Nanoelectronicsand Optoelectronics 7 (4) , pp. 366-3691799. Wu, Y., Zheng, F., Bai, J., Zhang, X., Ou, Y., Zhou,Z. Simulation on electrical field distribution of dielectrophoresisfor carbon nanotube, 2012, Proceedings ofthe 11th IEEE International Conference on CognitiveInformatics and Cognitive Computing, ICCI*CC 2012, art. no. 6311203 , pp. 518-5211800. Xiang, Y., Jiang, Y., Zhang, X., Bai, J. Study onthe electromagnetic model for optical properties of optoelectronicdevices based on carbon nanotube, (2013)Bandaoti Guangdian/Semiconductor Optoelectronics,34 (2) pp. 197-199+203.1801. Ying, W., Cheng, Y.X., Shaochun, H., Yi, X., Yihong,O., Junjie, B. Photodetector based on carbon nanotubearray, 2013, Journal of Nanoelectronics and Optoelectronics8 (3) , pp. 256-259ArtículoOptically 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 (1):1802. Hendler, N; Fadeev, L; Mentovich, ED; Belgorodsky,B; Gozin, M; Richter, S Bio-inspired synthesis of chiralsilver nanoparticles in mucin glycoprotein-the naturalchoice, Chem. Comm. 47 (26): 7419-7421 2011ArtículoRole of morphology in the enhanced optical activity ofligand-protected metal nanoparticles, Cecilia Noguez,Sanchez-Castillo, A., Hidalgo, F. J. Phys. Chem. Lett.,2 (9), pp. 1038-1044 2011Lo citan (9):1803. Hartland, G.V., Schatz, G. Virtual issue: Plasmon resonances- A physical chemistry perspective, Journal ofPhysical Chemistry C 115 (31), pp. 15121-15123 20111804. Hartland, G.V. Assembling atoms to clusters and clustersto crystals, Journal of Physical Chemistry Letters2 (9), pp. 1111-1112 20111805. Assaf Ben Moshe, Daniel Szwarcman, and Gil Markovich,Size Dependence of Chiroptical Activity in ColloidalQuantum Dots, ACS Nano, Articles ASAP (PublicationDate (Web): October 3, 2011 (Article) DOI:10.1021/nn203234b1806. Govorov, A.O., Gun’Ko, Y.K., Slocik, J.M., Gérard,V.A., Fan, Z., Naik, R.R. Chiral nanoparticle assemblies:Circular dichroism, plasmonic interactions, andexciton effects, 2011 Journal of Materials Chemistry 21(42), pp. 16806-168181807. Yao, H., Kitaoka, N., Sasaki, A. Chemical transformationof chiral monolayer-protected gold clusters: Observationof ligand size effects on optical and chiropticalresponses, Nanoscale 4 (3) , pp. 955-963, 20121808. Tsukuda, T. Toward an atomic-level understanding ofsize-specific properties of protected and stabilized goldclusters, Bulletin of the Chemical Society of Japan 85(2) , pp. 151-168, 20121809. Akbari-Sharbaf, A., Hesari, M., Workentin, M.S., Fanchini,G. Electron paramagnetic resonance in positivelycharged Au25 molecular nanoclusters, 2013, Journal ofChemical Physics 138 (2) , art. no. 0243051810. Fernandez-Corbaton, I., Vidal, X., Tischler, N.,Molina-Terriza, G. Necessary symmetry conditions forthe rotation of light, 2013, Journal of Chemical Physics138 (21) , art. no. 2143111811. Zhang, C., Song, C., Yang, W., Deng, J. Au at poly(Npropargylamide)nanoparticles: Preparation and chiralrecognition, 2013, Macromolecular Rapid Communications34 (16) , pp. 1319-1324ArtículoDesigning the plasmonic response of shell nanoparticles:spectral representation, C. E. Román-Velázquez, CeciliaNoguez, Journal of Chemical Physics 114(4),044116-1 – 044116-14 (2011)Lo citan (6):1812. Wu, P.C., Losurdo, M., Kim, T.-H., Garcia-Cueto, B.,Moreno, F., Bruno, G., Brown, A.S. Ga-Mg Core-shellnanosystem for a novel full color plasmonics, Journalof Physical Chemistry C 115 (28), pp. 13571-1357620111813. Tan, QY; Xu, ML; Wu, JY; Yin, HF; Zhang, JQ Preparationand characterization of poly(lactic acid) nanoparticlesfor sustained release of pyridostigmine bromide,Pharmazie, 67 (4):311-318; 10.1691/ph.2012.1103APR 20121814. Mammo, E.D., Marques-Hueso, J., Richards, B.S. Nanoplasmonicsfor photovoltaic applications, 2012, Proceedingsof SPIE - The International Society for OpticalEngineering 8438 , art. no. 84381M1815. Yan, W., Xu, L., Xu, C., Ma, W., Kuang, H., Wang,L., Kotov, N.A. Self-assembly of chiral nanoparticlepyramids with strong R/S optical activity, 2012, J. Am.Chem. Soc. 134 (36) , pp. 15114-15121 41816. Qiu, WJ; DeLacy, BG; Johnson, SG; Joannopoulos,JD; Soljacic, M Optimization of broadband optical responseof multilayer nanospheres, Optics Express, 20(16):18494-18504; JUL 30 20121817. Gülen, D. Optical response of lorentzian nanoshells inthe quasistatic limit, 2013, Journal of Physical ChemistryB 117 (38) , pp. 11220-11228ArtículoElectromagnetic Field Enhancement at the Edge of MetalNanostructures, Angulo, Ali; Cecilia Noguez; Schatz,George The Journal of Physical Chemistry Letters 2,1978–1983 (2011)Lo citan (10):1818. Mortazavi, D., Kouzani, A.Z., Kaynak, A., Duan, W.Developing LSPR design guidelines(2012) Progress inElectromagnetics Research, 126 pp. 203-235.1819. Khajehpour, K.J., Williams, T., Bourgeois, L., Adeloju,S. Gold nanothorns-macroporous silicon hybridstructure: A simple and ultrasensitive platform forSERS, 2012 Chem. Comm. 48 (43) , pp. 5349-53511820. Kirkeminde, A; Retsch, M; Wang, Q; Xu, GW; Hui,RQ; Wu, J; Ren, SQ Surface-passivated plasmonicnano-pyramids for bulk heterojunction solar cell photocurrentenhancement, Nanoscale, 4 (15):4421-4425;10.1039/c2nr30735a 20121821. Koen, K.A., Weber, M.L., Mayer, K.M., Fernandez,E., Willets, K.A. Spectrally-resolved polarization anisotropyof single plasmonic nanoparticles excited bytotal internal reflection, 2012, J. Phys. Chem. C 116(30) , pp. 16198-16206
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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
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63. Surface Plasmons on Metal Nanop
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29. Propiedades electrónicas de la
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3. Estudio teórico de nanotubos de
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269. V. Kochergin, V. Zaporojtchenk
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2874. Shkrebtii AI, Esser N, Richte
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30143. Losio R, Altmann KN, Himpsel
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Page 41 and 42: 38402. Liu, P; Cui, H; Wang, CX; Ya
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Page 77 and 78: 74OPTICS, 14 (12):10.1088/2040-8978
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