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45607. Nishida, N.; Yao, H.; Ueda, T.; Sasaki, A.; Kimura,K. Synthesis and Chiroptical Study of D/L-Penicillamine-Capped Silver Nanoclusters, Chem. Mater.19, 2831 (2007)608. Shichibu Y, Negishi Y, Tsunoyama H, Kanehara M,Teranishi T, Tsukuda T, Extremely high stability ofglutathionate-protected Au-25 clusters against core etching,Small 3, 835 (2007)609. H. Behar-Levy, O. Neumann, R. Naaman, D. Avnir,Chirality Induction in Bulk Gold and Silver, AdvancedMaterials 19, 1207 (2007)610. Ikeda, K.; Kobayashi, Y.; Negishi, Y.; Seto, M.; Iwasa,T.; Nobusada, K.; Tsukuda, T.; Kojima, N., Thiolate-Induced Structural Reconstruction of Gold ClustersProbed by 1 97Au Mössbauer Spectroscopy, J. Am.Chem. Soc. 129, 7230 (2007)611. Bovet, N.; McMillan, N.; Gadegaard, N.; Kadodwala,M., Supramolecular Assembly Facilitating Adsorbate-Induced Chiral Electronic States in a Metal Surface, J.Phys. Chem. B111, 10005 (2007)612. Yao, H.; Fukui, T.; Kimura, K.; Chiroptical Responsesof D-/L-Penicillamine-Capped Gold Clusters underPerturbations of Temperature Change and PhaseTransfer, J. Phys. Chem. C 111, 14968 (2007)613. Hegmann, T.; Qi, H. (UNIVERSITY OF MANITO-BA), Metal Nanoparticle and use thereof for inducingchirality in liquid crystal phases, Patent CooperationTreaty Application, Jul 2007 patno:WO07079585614. Woldeghebriel, H., Kshirsagar, A.; How cationic goldclusters respond to a single sulfur atom, (2007) Journalof Chemical Physics 127, art. no. 224708615. T. Tsukuda, H. Hironori, Y. Negishi, Systematic sintesysof monolayer proected gold clusters with welldefinedchemical composition, page 373, in Metal Nanoclustersin Catalysis and Materials Science: The Issueof Size Control, Editors: B. Corain, G. Schmid, NToshima , Elsevier Science (2007)616. Qi H, ONeil J, Hegmann T, Chirality transfer innematic liquid crystals doped with (S)-naproxenfunctionalizedgold nanoclusters: an induced circulardichroism study, J of Materials Chemistry 18, 374(2008)617. Nishida, N.; Yao, H.; Kimura, K., Chiral Functionalizationof Optically Inactive Monolayer-Protected SilverNanoclusters by Chiral Ligand-Exchange Reactions,Langmuir 24, 2759 (2008)618. Yao H, Optically active gold nanoclusters, Current Nanoscience4, 92 (2008)619. Chaki, N. K.; Negishi, Y.; Tsunoyama, H.; Shichibu,Y.; Tsukuda, T. Ubiquitous 8 and 29kDa Gold:Alkanethiolate Cluster Compounds: Mass-Spectrometric Determination of Molecular Formulasand Structural Implications, J. Am. Chem. Soc. 130,8608 (2008)620. Pyykkö, P. Theoretical chemistry of gold. III, ChemicalSociety Reviews 37, 1967 (2008)621. Zhu MZ, Eckenhoff WT, Pintauer T, Jin, RC; Conversionof anionic [Au-25(SCH2CH2Ph)(18)](-) clusterto charge neutral cluster via air oxidation, J. Phys.Chem. C 112, 14221 (2008)622. Qi, H.; Hegmann, T. Postsynthesis Racemization andPlace Exchange Reactions. Another Step To Unravelthe Origin of Chirality for Chiral Ligand-Capped GoldNanoparticles, J. Am. Chem. Soc. 130, 14201 (2008)623. Yao, H.; Fukui, T.; Kimura, K. Asymmetric Transformationof Monolayer-Protected Gold Nanoclusters viaChiral Phase Transfer, J. Phys. Chem. C. 112 16281(2008)624. Reyes-Esqueda, J.A., Salvador, A.B., Zanella, R., Sizecontrol of Au nanoparticles on TiO2 and Al 2O3 byDP Urea: Optical absorption and electron microscopyas control probes, Journal of Nanoscience and Nanotechnology8, 3843 (2008)625. Lin CAJ, Yang TY, Lee CH et al. Synthesis, Characterization,and Bioconjugation of Fluorescent GoldNanoclusters toward Biological Labeling Applications,ACS Nano 3, 395 (2009)626. Ho, S., Critchley, K., Lilly, G.D., Shim, B., Kotov, N.A.Free flow electrophoresis for the separation of CdTenanoparticles, Journal of Materials Chemistry 19, 1390(2009)627. Wu, Z., Gayathri, C., Gil, R.R., Jin, R., Probing thestructure and charge state of glutathione-capped Au25(SG)18 clusters by NMR and mass spectrometry,Journal of the American Chemical Society 131, 6535(2009)628. A Vargas, G Santarossa, M Iannuzzi, and A Baiker,Fluxionality of gold nanoparticles investigated byBorn-Oppenheimer molecular dynamics, Phys. Rev. B80, 195421 (2009)629. C-W Chen, C-H Wang, C-M Wei, C-YiHsieh, Y-TChen, Y-F Chen, C-W Lai, C-L Liu, C-C Hsieh, P-T Chou, Highly Sensitive Emission Sensor Based onSurface Plasmon Enhanced Energy Transfer betweenGold Nanoclusters and Silver Nanoparticles, J. Phys.Chem. C 114, 799 (2010)630. Rongchao Jin, Quantum sized, thiolate-protected goldnanoclusters, Nanoscale, 2010, 2, 343-362 DOI:10.1039/b9nr00160c631. Lin, C.-A.J., Lee, C.-H., Hsieh, J.-T., Wang, H.-H.,Li, J.K., Shen, J.-L., Chan, W.-H., (...), Chang, W.H.Synthesis of fluorescent metallic nanoclusters towardbiomedical application: Recent progress and presentchallenges, Journal of Medical and Biological Engineering29, 276 (2009)632. J George, K. G Thomas Surface Plasmon Coupled CircularDichroism of Au Nanoparticles on Peptide Nanotubes,J. Am. Chem. Soc. 132, 2502 (2010)633. Govorov, AO; Fan, ZY; Hernandez, P; Slocik, JM;Naik, RR, Theory of Circular Dichroism of NanomaterialsComprising Chiral Molecules and Nanocrystals:Plasmon Enhancement, Dipole Interactions, and DielectricEffects, NANO LETTERS 10 (4): 1374-1382APR 2010634. Lin, C.-A.J., Lee, C.-H., Hsieh, J.-T., Yu, W.-C., Yang,H.-Z., Li, J.K., Sperling, R., (...), Chang, W.H. Synthesisand surface modification of highly fluorescent goldnanoclusters and their exploitation for cellular labeling,2010 Progress in Biomedical Optics and Imaging- Proceedings of SPIE 7575, art. no. 757506635. Autschbach, J Computing Chiroptical Properties withFirst-Principles Theoretical Methods: Background andIllustrative Examples, CHIRALITY 21 (1E): E116-E152 2010636. Z Fan, A O. Govorov Plasmonic Circular Dichroismof Chiral Metal Nanoparticle Assemblies, NANO LET-TERS 10 (7): 2580-2587 JUL 2010637. Yao, H; Saeki, M; Kimura, K, Induced Optical Activityin Boronic-Acid-Protected Silver Nanoclusters byComplexation with Chiral Fructose, JOURNAL OFPHYSICAL CHEMISTRY C 114 (38): 15909-15915SEP 30 2010638. Morales-Saavedra, O.G., Zanella, R. Structural andphotophysical evaluation of Au-NPs/SiO2-basedinorganic-inorganic sonogel hybrid composites, (2010)Materials Chemistry and Physics, 124 (1) pp. 816-830.639. Zhang, M.-X., Cui, R., Tian, Z.-Q., Zhang, Z.-L., Pang,D.-W. Kinetics-controlled formation of gold clustersusing a quasi-biological system, (2010) Advanced FunctionalMaterials, 20 (21) pp. 3673-3677.
46640. Oh, H.S., Liu, S., Jee, H., Baev, A., Swihart, M.T.,Prasad, P.N. Chiral poly(fluorene-alt-benzothiadiazole)(PFBT) and nanocomposites with gold nanoparticles:Plasmonically and structurally enhanced chirality,(2010) Journal of the American Chemical Society,132 (49) pp. 17346-17348.641. Li, Y., Yu, D., Dai, L., Urbas, A., Li, Q. Organo-solublechiral thiol-monolayer-protected gold nanorods, (2011)Langmuir, 27 (1) pp. 98-103.642. 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. 1-98.643. Xia, YH; Zhou, YL; Tang, ZY Chiral inorganic nanoparticles:origin, optical properties and bioapplications,NANOSCALE 3 (4): 1374-1382 2011644. Qi, H; Shopsowitz, KE; Hamad, WY; MacLachlan, MJChiral Nematic Assemblies of Silver Nanoparticles inMesoporous Silica Thin Films, JOURNAL OF THEAMERICAN CHEMICAL SOCIETY 133 (11): 3728-3731 MAR 23 2011645. Hendler, N; Fadeev, L; Mentovich, ED; Belgorodsky, B;Gozin, M; Richter, S Bio-inspired synthesis of chiralsilver nanoparticles in mucin glycoprotein-the naturalchoice, CHEMICAL COMMUNICATIONS 47 (26):7419-7421 2011646. Morton, S.M., Silverstein, D.W., Jensen, L. Theoreticalstudies of plasmonics using electronic structure methods,2011 Chemical Reviews 111 (6), pp. 3962-3994647. Guerrero-Martinez, A; Alonso-Gomez, JL; Auguie, B;Cid, MM; Liz-Marzan, LM From individual to collectivechirality in metal nanoparticles, NANO TODAY6 (4): 381-400 2011648. Zhu, MZ; Qian, HF; Meng, XM; Jin, SS; Wu, ZK; Jina,RC Chiral Au(25) Nanospheres and Nanorods: Synthesisand Insight into the Origin of Chirality, NANOLETTERS 11 (9): 3963-3969 2011649. Sun, Y; Balasubramanian, K; Rao, TUB; Pradeep, TFirst Principles Studies of Two Luminescent MolecularQuantum Clusters of Silver, Ag(7)(H(2)MSA)(7)and Ag(8)(H(2)MSA)(8), Based on ExperimentalFluorescence Spectra, JOURNAL OF PHYSICALCHEMISTRY C 115 (42): 20380-20387 2011650. Wang, C., Li, J., Amatore, C., Chen, Y., Jiang, H.,Wang, X.-M. Gold nanoclusters and graphene nanocompositesfor drug delivery and imaging of cancercells, 2011 Angewandte Chemie - International Edition50 (49), pp. 11644-11648651. Zhou, Y., Zhu, Z., Huang, W., Liu, W., Wu, S., Liu, X.,Gao, Y., Zang, W., Tang, Z. Optical coupling betweenchiral biomolecules and semiconductor nanoparticles:Size-dependent circular dichroism absorption 2011 AngewandteChemie - International Edition 50 (48), pp.11456-11459652. Yao, H; Saeki, M; Sasaki, A Boronic Acid-ProtectedGold Clusters Capable of Asymmetric Induction: SpectralDeconvolution Analysis of Their Electronic Absorptionand Magnetic Circular Dichroism, LANGMUIR,28 (8):3995-4002; 10.1021/la204731a FEB 28 2012653. 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, 2012654. Samanta, P.K., Periyasamy, G., Manna, A.K., Pati,S.K. Computational studies on structural and opticalproperties of single-stranded DNA encapsulated silver/goldclusters, (2012) Journal of Materials Chemistry,22 (14) pp. 6774-6781.655. Saumya, V., Rao, T.P. Copper quantum clusterpolypyrrolecomposite film based zero current chronopotentiometricsensor for glutathione, 2012, AnalyticalMethods 4 (7) , pp. 1976-1982656. Kim, J.M., Chang, S.-M., He, X.-K., Kim, W.-S. Developmentof real-time sensitive chiral analysis techniqueusing quartz crystal analyzer, 2012, Sensors andActuators, B: Chemical 171-172 , pp. 478-485657. Wang, JL; Zhang, G; Li, QW; Jiang, H; Liu, CY;Amatore, C; Wang, XM In vivo self-bio-imagingof tumors through in situ biosynthesized fluorescentgold nanoclusters, SCIENTIFIC REPORTS, 310.1038/srep01157 JAN 29 2013658. Melnikau, D., Savateeva, D., Gun’Ko, Y.K., Rakovich,Y.P. Strong enhancement of circular dichroism in ahybrid material consisting of J-aggregates and silvernanoparticles, 2013, Journal of Physical Chemistry C117 (26) , pp. 13708-13712Artículo:Spectral Representation of the Casimir Force Between aSphere and a Substrate, C. Román-Velázquez, CeciliaNoguez, C. Villarreal y R. Esquivel-Sirvent. Physical ReviewA 69, 042109 (2004).Lo citan: (8):659. Milton, Kimball A. J. Phys A37, R209 (2004).660. J. Bárcenas, L. Reyes, and R. Esquivel-Sirvent, AcousticCasimir pressure for arbitrary media, J of theAcoustical Society of America 116, 717 (2004)661. Villarreal, C., Mochán, W.L., The Casimir effect , AIPConference Proceedings 857B, 235 (2006)662. K. A. Milton, Recent Developments in the Casimir Effect,J. Phys.: Conf. Ser. 161, 012001 (2009)663. A. Lambrecht and I. G. Pirozhenko, Casimir forcebetween dissimilar mirrors and the role of the surfaceplasmons, Phys. Rev. A 78, 062102 (2008)664. V.V. Klimov, A. Lambrecht, Plasmonic nature of vander Waals forces between nanoparticles, Plasmonics 4,31 (2009)665. Markel, VA, Pole expansion of the Lorenz-Mie coefficients,JOURNAL OF NANOPHOTONICS 4: Art.No. 041555 FEB 4 2010666. 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Page 1 and 2: .Cecilia NoguezCURRICULUM VITAE9 de
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Page 5 and 6: 1985-1990 LICENCIATURA: FísicaInst
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Page 9 and 10: 62. Pláticas invitadas nacionales
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Page 13 and 14: 10E. Organización de reuniones cie
Page 15 and 16: 122004/07 Efecto casimir en materia
Page 17 and 18: 145 publicaciones en el Phys. Rev.
Page 19 and 20: 16Centro de Investigaciones en Opti
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Page 23 and 24: 63. Surface Plasmons on Metal Nanop
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Page 77 and 78: 74OPTICS, 14 (12):10.1088/2040-8978
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