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771573. Signori, AM; Santos, KD; Eising, R; Albuquerque, BL;Giacomelli, FC; Domingos, JB Formation of CatalyticSilver Nanoparticles Supported on Branched PolyethyleneimineDerivatives, Langmuir 26 (22): 17772-17779NOV 16 20101574. Krasnykov, O.; Karabchevsky, A.; Shalabney, A; Auslender,M; Abdulhalim, I. Sensor with increased sensitivitybased on enhanced optical transmission in theinfrared, Optics Communications, 284 (5), p.1435, Mar20111575. JW Jian CC Huang Colorimetric Detection of DNAby Modulation of Thrombin Activity on Gold Nanoparticles,Chemistry - A Europena J. 17, 2011, Pages:2374–23801576. Park, SJ, Sohee-Jeong, Park, HH, Lee, SW, Jeon, S,Lee, JH, Choi, DG, Jeong, JH-Ho, Choi, JH, OptimizedFilm Processing of Nanosilver Colloids for PhotoluminescenceEnhancement, J. Nanosci. and Nanotechnol.11, 422 (2011)1577. Preciado-Flores, S., Wang, D., Wheeler, D.A., Newhouse,R., Hensel, J.K., Schwartzberg, A., Wang, L.,Zhu, J., Barboza-Flores, M., Zhang, J.Z. Highly reproduciblesynthesis of hollow gold nanospheres with nearinfrared surface plasmon absorption using PVP as stabilizingagent, (2011) J. Materials Chemistry, 21 (7) pp.2344-2350.1578. Liu, LP; Wang, GM; Li, Y; Li, YD; Zhang, JZ CdSequantum dot-sensitized Au/TiO2 hybrid mesoporousfilms and their enhanced photoelectrochemical performance,Nano Res. 4 (3): 249-258 MAR 20111579. Y Cheng, L Yin, S Lin, M Wiesner, E Bernhardt, J LiuToxicity Reduction of Polymer-Stabilized Silver Nanoparticlesby Sunlight, J. Phys. Chem. C, 2011, 115 (11),pp 4425–44321580. Wachter, C; Michaelis, D Simulation of Metallic Nanoparticlesin Layered Structures, Numerical Analysisand applied Maths. Vols I-III 1281: 1626-1629 20101581. de Assumpcao, TAA; Kassab, LRP; Gomes, ASL; deAraujo, CB; Wetter, NU Influence of the heat treatmenton the nucleation of silver nanoparticles inTm3+ doped PbO-GeO2 glasses, Appl. Phys. B-Lasersand optics 103 (1): 165-169 APR 20111582. Goesmann, H., Feldmann, C. Nanoparticulate functionalmaterials, 2010 Angewandte Chemie - InternationalEdition 49 (8), pp. 1362-13951583. Li, Y., Lu, W., Huang, Q., Li, C., Chen, W. Coppersulfide nanoparticles for photothermal ablation of tumorcells, 2010 Nanomedicine 5 (8), pp. 1161-11711584. Nedyalkov, N.N., Imamova, S.E., Atanasov, P.A.,Toshkova, R.A., Gardeva, E.G., Yossifova, L.S., Alexandrov,M.T., Obara, M. Interaction of gold nanoparticleswith nanosecond laser pulses: Nanoparticleheating, 2011 Applied Surface Science 257 (12), pp.5456-54591585. Krahne, R., Morello, G., Figuerola, A., George, C., Deka,S., Manna, L. Physical properties of elongated inorganicnanoparticles, 2011 Physics Reports 501 (3-5),pp. 75-2211586. Durante, N., Fortunelli, A., Broyer, M., Stener, M. Opticalproperties of Au nanoclusters from TD-DFT calculations,2011 J. Physical Chemistry C 115 (14), pp.6277-62821587. Dominguez, CT; Maltez, RL; dos Reis, RMS; de Melo,LSA; de Araujo, CB; Gomes, ASL Dependence of randomlaser emission on silver nanoparticle density inPMMA films containing rhodamine 6G, J. Opt. Soc.Am. B-Optical Phys. 28 (5): 1118-1123 MAY 20111588. Leong, ESP; Liu, YJ; Wang, B; Teng, JH Effect of SurfaceMorphology on the Optical Properties in Metal-Dielectric-Metal Thin Film Systems, ACS APPL. Materials& Interfaces 3 (4): 1148-1153 APR 20111589. Yang, JH; Sardar, DK One-Pot Synthesis of Coral-Shaped Gold Nanostructures for Surface-Enhanced RamanScattering, J. Nano Res. 14: 47-55 20111590. Vorobyev, AY; Guo, CL Optical and Wetting Propertiesof Femtosecond Laser Nanostructured Materials,J. Nano Res. 14: 57-67 20111591. Luty-Blocho, M., Fitzner, K., Hessel, V., Lob, P., Maskos,M., Metzke, D., Paclawski, K., Wojnicki, M. Synthesisof gold nanoparticles in an interdigital micromixerusing ascorbic acid and sodium borohydride asreducers, 2011 Chemical Engineering Journal 171 (1),pp. 279-2901592. Giannini, V., Fernandez-Dominguez, A.I., Heck, S.C.,Maier, S.A. Plasmonic nanoantennas: Fundamentalsand their use in controlling the radiative propertiesof nanoemitters, 2011 Chemical Reviews 111 (6), pp.3888-39121593. Bhowmik, S., Holm, A., Ostroverkhova, O., Atre, S.Metallic nanostructures in a polymer matrix and substratefabrication and structural characterization, 2011Applied Physics A: Materials Science and Processing103 (4), pp. 1117-11231594. Savaloni H; Haydari-Nasab F; Malmir M Nanostructuralcharacteristics and optical properties of silverchiral nano-flower sculptured thin films, Appl.Surf. Sci. 257, 9044-9055 20111595. Singh, SP; Karmakar, B Single-Step Synthesis andSurface Plasmons of Bismuth-Coated Spherical to HexagonalSilver Nanoparticles in Dichroic Ag:BismuthGlass Nanocomposites, Plamonics 6 (3): 457-467 20111596. Torres-Torres, C; Castro-Chacon, JH; Castaneda, L;Rojo, RR; Torres-Martinez, R; Tamayo-Rivera, L;Khomenko, AV Ultrafast nonlinear optical response ofphotoconductive ZnO films with fluorine nanoparticles,Optics Express 19 (17): 16346-163551597. Albella, P; Saiz, JM; Gonzalez, F; Moreno, F Surfacemonitoring based on light scattering by metal nanosensors,J. Quantitative Spectroscopy & RadiativeTransfer 112 (13): 2046-2058 SI 20111598. Dowgiallo, AM; Schwartzberg, AM; Knappenberger,KL Structure-Dependent Coherent Acoustic Vibrationsof Hollow Gold Nanospheres, Nano Lett. 11 (8):3258-3262 20111599. Vorobyev, AY; Guo, CL Reflection of femtosecond laserlight in multipulse ablation of metals, J. Appl.Phys. 110 (4): 10.1063/1.3620898 AUG 15 20111600. Torres-Torres, C; Tamayo-Rivera, L; Rangel-Rojo,R; Torres-Martinez, R; Silva-Pereyra, HG; Reyes-Esqueda, JA; Rodriguez-Fernandez, L; Crespo-Sosa,A; Cheang-Wong, JC; Oliver, A, Ultrafast opticalphase modulation with metallic nanoparticles inion-implanted bilayer silica, Nanotechnol. 22 (35):10.1088/0957-4484/22/35/355710 SEP 2 20111601. Sekhon, JS; Verma, SS Plasmonics: the future wave ofcommunication, Current Sci. 101 (4): 484-488 AUG 2520111602. Wahbeh, M., Alsawafta, M., Misra, S., Truong, V.-V. Optical properties of two-dimensional and threedimensionalarrays of noble metal nanoparticles by thediscrete dipole approximation method, Proceedings ofSPIE - The International Society for Optical Engineering8007, art. no. 80071I 20111603. Kassab, L.R.P., Freitas, L.F., Assumpcao, T.A.A., DaSilva, D.M., De Araujo, C.B. Frequency upconversionproperties of Ag: TeO2-ZnO nanocomposites codopedwith Yb3+ and Tm3+ ions, Applied Physics B: Lasersand Optics 104 (4), pp. 1029-1034 20111604. Sekhon, J.S., Verma, S.S. Plasmonics: The future waveof communication, Current Science 101 (4), pp. 484-488 2011
781605. Xing, H., Bu, W., Zhang, S., Zheng, X., Li, M., Chen,F., He, Q., Zhou, L., Peng, W., Hua, Y., Shi, J. Multifunctionalnanoprobes for upconversion fluorescence,MR and CT trimodal imaging, (2012) Biomaterials, 33(4) pp. 1079-1089.1606. Sotiriou, G.A., Pratsinis, S.E. Engineering nanosilveras an antibacterial, biosensor and bioimaging material,2011Current Opinion in Chemical Engineering 1(1), pp. 3-101607. Tesler, AB; Chuntonov, L; Karakouz, T; Bendikov, TA;Haran, G; Vaskevich, A; Rubinstein, I Tunable LocalizedPlasmon Transducers Prepared by Thermal Dewettingof Percolated Evaporated Gold Films, J. Phys.Chem. C, 115 (50):24642-24652 20111608. Angelescu, D.G., Vasilescu, M., Anastasescu, M., Baratoiu,R., Donescu, D., Teodorescu, V.S. Synthesis andassociation of Ag(0) nanoparticles in aqueous PluronicF127 triblock copolymer solutions, 2012 Colloidsand Surfaces A: Physicochemical and Engineering Aspects394 , pp. 57-661609. Yang, L., Liu, H., Ma, Y., Liu, J. Solvent-induced hotspot switch on silver nanorod enhanced Raman spectroscopy,Analyst 137 (7) , pp. 1547-1549, 20121610. Angelidou, M., Pitris, C. Investigation of nanostructurescattering and absorption for combined optical diagnosticand therapeutic applications, Progress in BiomedicalOptics and Imaging - Proceedings of SPIE 8231, art. no. 823108, 20121611. Yang, Y.-Y., Csapo, E., Zhang, Y.-L., Sussmann, F.,Stebbings, S.L., Duan, X.-M., Zhao, Z.-S., (...), Kling,M.F. Optimization of the Field Enhancement andSpectral Bandwidth of Single and Coupled BimetalCore-Shell Nanoparticles for Few-Cycle Laser Applications,Plasmonics 7 (1) , pp. 99-106, 20121612. Kubacka, A., Fernandez-García, M., Colon, G. Advancednanoarchitectures for solar photocatalytic applications,(2012) Chemical Reviews, 112 (3) pp. 1555-1614.1613. Torres-Torres, C., Tamayo-Rivera, L., Rangel-Rojo,R., Torres-Martinez, R., Silva-Pereyra, H.G., Reyes-Esqueda, J.A., Rodriguez-Fernandez, L., Crespo-Sosa,A., Cheang-Wong, J.C., Oliver, A. Ultrafast opticalphase modulation with metallic nanoparticles in ionimplantedbilayer silica, (2011) Nanotechnology, 22(35), art. no. 3557101614. Morarescu, R., Shen, H., Vallée, R.A.L., Maes, B., Kolaric,B., Damman, P. Exploiting the localized surfaceplasmon modes in gold triangular nanoparticles forsensing applications, (2012) J. Materials Chemistry, 22(23) pp. 11537-11542.1615. DeSantis, CJ; Skrabalak, SE Size-Controlled Synthesisof Au/Pd Octopods with High RefractiveIndex Sensitivity, LANGMUIR, 28 (24):9055-9062;10.1021/la3002509 JUN 19 20121616. Campos-Lopez, J.P., Torres-Torres, C., Trejo-Valdez, M., Torres-Torres, D., Urriolagoitia-Sosa, G.,Hernandez-Gómez, L.H., Urriolagoitia-Calderon, G.Optical absorptive response of platinum doped TiO2 transparent thin films with Au nanoparticles, 2012Materials Science in Semiconductor Processing 15 (4), pp. 421-4271617. Liang, A., Liu, Q., Wen, G., Jiang, Z. The surfaceplasmon-resonanceeffect of nanogold/silver and itsanalytical applications, 2012, TrAC - Trends in AnalyticalChemistry 37 , pp. 32-47.1618. Miskovsky, N.M., Cutler, P.H., Mayer, A., Weiss, B.L.,Willis, B., Sullivan, T.E., Lerner, P.B. Nanoscale devicesfor rectification of high frequency radiation fromthe infrared through the visible: A new approach, 2012,J. Nanotechnology , art. no. 5123791619. K. Kolwas, A. Derkachova, Damping rates of surfaceplasmons for particles of size from nano- to micrometers;reduction of the nonradiative decay, J. QuantitativeSpectroscopy and Radiative Transfer 114 , pp.45-55 (2013)1620. Verma, S.S., Sekhon, J.S. Influence of aspect ratio andsurrounding medium on localized surface plasmon resonance(LSPR) of gold nanorod, 2012, J. Optics (India)41 (2) , pp. 89-931621. Xuan, X., Xu, S., Liu, Y., Li, H., Xu, W., Lombardi,J.R. A long-range surface plasmon resonance/probe/silvernanoparticle (LRSPR-P-NP) nanoantennaconfiguration for surface-enhanced raman scattering,2012, J. Physical Chemistry Letters 3 (19) , pp.2773-27781622. Ramadan, S., Guo, L., Li, Y., Yan, B., Lu, W. —textit-Hollow copper sulfide nanoparticle-mediated transdermaldrug delivery, (2012) Small, 8 (20) pp. 3143-3150.1623. Rashidian, M; Dorranian, D Effect of concentration onthe plasmonic absorption and optical nonlinearity ofgold nanoparticles, : Optical Engineering 51, 089001(2012)1624. Pérez-Mirabet, L., Surinyach, S., Ros, J., Suades, J.,Yáñez, R. Gold and silver nanoparticles surface functionalizedwith rhenium carbonyl complexes, 2012,Materials Chemistry and Physics 137 (2) , pp. 439-4471625. Szacilowski, Konrad Low-Dimensional Metals andSemiconductors, John Wiley & Sons, Ltd, doi:10.1002/9780470710883.ch4, pp 63–117 (2012)1626. Sotiriou, G.A. Biomedical applications of multifunctionalplasmonic nanoparticles, 2013, Wiley InterdisciplinaryReviews: Nanomedicine and Nanobiotechnology5 (1) , pp. 19-301627. Lee, K.F., Hayashi, T., Takaya, Y. Structuralization ofmetal nanoparticles by photoinduced aggregation, 2010,10th International Symposium on Measurement andQuality Control 2010, ISMQC 2010 , pp. 366-3691628. Gao, X., Chen, G., Ning, L. Plasmonic characteristicsof nanorod-based metallic nanostructures, 2013, Opticsand Laser Technology 48 , pp. 394-4001629. David, C., Connolly, J.P., Chaverri Ramos, C., GarciaDe Abajo, F.J., Sanchez Plaza, G. Theory of randomnanoparticle layers in photovoltaic devices applied toself-aggregated metal samples, 2013, Solar Energy Materialsand Solar Cells 109 , pp. 294-2991630. A. Benami, A. Lopez-Suarez, L. Rodriguez-Fernandez,A. Crespo-Sosa, J. C. Cheang-Wong, J. A. Reyes-Esqueda, A. Oliver Enhancement and quenchingof photoluminescence from silicon quantum dotsby silver nanoparticles in a totally integratedconfiguration, AIP Advances 2, 012193 (2012);http://dx.doi.org/10.1063/1.37016961631. N. Goubet, C. Yan, D. Polli, H. Portales, I. Arfaoui, G.Cerullo, and M.-P. Pileni. Modulating physical propertiesof isolated and self-assembled nanocrystals throughchange in nanocrystallinity, Nano Letters pp. 504-508(2013)1632. K. Shadak Alee, R. Kuladeep, D. Narayana Rao In-situinvestigation of the formation of silver nanoparticlesin polyvinyl alcohol through micro-Raman spectroscopy,Optics Communications 293 , pp. 69-74 (2013)1633. C. D. Geddes, R. Newhouse, and J. Zhang OpticalProperties and Applications of Shape-Controlled MetalNanostructures Reviews in Plasmonics, volume 2010.Springer New York, 2012.1634. A. Y. Vorobyev and C. Guo Direct femtosecond lasersurface nano/microstructuring and its applications,Laser and Photonics Reviews 7 (3) , pp. 385-407, 2013.DOI: 10.1002/lpor.201200017
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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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Page 31 and 32: 2874. Shkrebtii AI, Esser N, Richte
Page 33 and 34: 30143. Losio R, Altmann KN, Himpsel
Page 35 and 36: 32201. Tuncer E, Nettelblad B, Guba
Page 37 and 38: 34267. V. Bastys, I. Pastoriza-Sant
Page 39 and 40: 36335. Blaber, M.G., Harris, N., Fo
Page 41 and 42: 38402. Liu, P; Cui, H; Wang, CX; Ya
Page 43 and 44: 40465. Chen, CC; Yu, BH; Liu, P; Li
Page 45 and 46: 42523. Zhang, L., Zheng, S., Kim, K
Page 47 and 48: 44579. Dandapat, A; Pramanik, S; By
Page 49 and 50: 46640. Oh, H.S., Liu, S., Jee, H.,
Page 51 and 52: 48706. Railing Chang and P. T. Leun
Page 53 and 54: 50771. Babapour, A; Yang, B; Bahang
Page 55 and 56: 52830. Hashimoto, M., Fukaya, Y., K
Page 57 and 58: 54of Silver Nanoparticles Embedded
Page 59 and 60: 56The effect of volume fraction, 20
Page 61 and 62: 58997. Henry, Kiely, Sir Thomas , R
Page 63 and 64: 601062. Shang, L., Qin, C., Jin, L.
Page 65 and 66: 621123. Chen, S.-Y., Lazarides, A.A
Page 67 and 68: 641185. Meyer, SA; Le Ru, EC; Etche
Page 69 and 70: 661250. Pescaglini, A; Emanuele, U;
Page 71 and 72: 681308. A de Matos, R; da Silva Cor
Page 73 and 74: 701369. A Salomon, M Zielinski, R K
Page 75 and 76: 721429. Dikovska, AO; Alexandrov, M
Page 77 and 78: 74OPTICS, 14 (12):10.1088/2040-8978
Page 79: 761539. Rodriguez, J.I., Autschbach
Page 83 and 84: 801668. Gautier, C; Burgi, T Vibrat
Page 85 and 86: 821736. Ben-Moshe, A., Maoz, B.M.,
Page 87 and 88: 841795. Wang, F., Matsuda, K., Rahm
Page 89 and 90: 861843. T M. Fitzgerald, M A. Marci
Page 91 and 92: 881899. Cecilia Noguez, Surface Pla
Page 93 and 94: 901956. Hidalgo, F; Noguez, C Optic
Page 95 and 96: 92Map of the Structural and Optical
Page 97 and 98: 94189. Molecular Dynamics Simulatio
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