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26 Surf. Sci. 318 342 (1994) Noguez et al. 1327 J. Phys. Chem. C 114 9640 (2010) ̌ Sánchez-Castillo et al. 1228 Phys. Rev. B 58 7367 (1998) ̌ Esquivel-Sirvent et al. 1229 J. Phys. Chem. Lett. 2 1978 (2011) ̌ Angulo et al. 1130 Eur. Phys. J. D 52, 179 (2009) ̌ Hidalgo et al. 1131 Phys. Rev. B53 13138 (1996) ̌ Noguez et al. 1132 J. Phys. Chem. A 113 4068 (2009) ̌ Román-Velázquez et al. 1133 J. Phys. Chem. Lett. 2 1038 (2011) ̌ Noguez et al. 1034 Phys. Rev. A 69 042109 (2004) ̌ Román-Velázquez et al. 1035 Phys. Rev. B 56 9719 (1997) ̌ Noguez et al. 1036 Phys. Rev. B 62 2681 (2000) ̌ Noguez 937 J. Chem. Phys. 134 044116 (2011) ̌ Román-Velázquez et al. 838 Phys. Rev. B 79 075438 (2009) ̌ Hidalgo et al. 839 Physica A 211 399 (1994) Noguez et al. 840 Supp. &Micro. 20 405 (1996) ̌ Noguez et al. 741 J. Phys. Chem. A 112 5834 (2008) ̌ Angulo et al. 642 Physica B 279 (2000) Beitia et al. 643 Phys. Rev. B 71 125337 (2005) ̌ López-Lozano et al. 544 J. Phys. A 39 6695 (2006) ̌ Román-Velázquez et al. 445 J. Appl. Phys. 82 3618 (1997) Esquivel-Sirvent et al. 446 Appl. Surf. Sci. 104 158 (1996) Roy et al. 447 J Phys Chem C 116 14170 (2012) ̌ Gonzalez et al. 348 Phys. Sta. Sol. (a)175 57 (1999) ̌ Noguez 349 Phys. Sta. Sol. (b) 247 1889 (2010) ̌ Hidalgo et al. 350 ACS Nano 7 513 (2013) ̌ Hidalgo et al. 151 Phys. Sta. Sol. (c) 0 2992 (2003) ̌ López-Lozano et al. 152 Phys. Sta. Sol. (a)175 393 (1999) ̌ Román-Velázquez et al. 1Memoria autor(es) ...citas53 MRS Symposium Proceedings Vol. 704 ̌ Noguez et al. 554 MRS Symposium Proceedings, Vol. 253 Villaseñor-G. et al. 355 MRS Symposium Proceedings Vol. 703 Esquivel-Sirvent et al. 356 MRS Symposium Proceedings Vol. 449 ̌ Noguez et al. 257 Quant. Field Theo. I of Ext. Conditions ̌ Noguez et al. 258 Surface Sciences Proceedings Vol. 62 Barrera et al. 159 Com. Privada Noguez 160 MRS Symposium Proceedings Vol. 581 ̌ Román-Velázquez et al. 161 Cap. Quantum Chem. Calculations ̌ Noguez et al. 1TOTAL 44 CITAS 200725XII. CITAS CAPTURADAS (2007)A. Citas sin autocitas (1845)Artículo:A new diagrammatic summation for the effective dielectric responseof composites, R. G. Barrera, Cecilia Noguez, E. V.Anda, Journal of Chemical Physics 96 (2), 1574–1581, (1992).Lo citan (17):1. A. Czainski, Garncarek Z., Piasecki R., Quantitive characterizationof inhomogeneity in thin mettalic filmsusing Garncarek method, Journal of Physics D, 27, 616– 622 (1994).2. R. G. Barrera, C. I. Mendoza, 3-Particle correlationsin the optical properties of granular composites, SolarEnergy Materials and Solar Cells 32, 463 – 476 (1994).3. M.I. Vasilevskiy, E.V. Anda, Effective dielectric responseof semiconductor composites, Phys. Rev. B 54,5844 – 5851, (1996).4. Zhou J. Li L.T., Gui Z.L., Zhang X.W., Barber D.J.,Sol-gel derived BaTiO3 films with embedded silver nanoparticles:preparation and dielectric properties, Nanostruct.Mater. 8, 321 – 328 (1997).5. M. I. Stockman, K. B. Kurlayev, T. F. George, Linearand nonlinear optical susceptibilities of Maxwell Garnettcomposites: Dipolar spectral theory, Phys. Rev. B60, 17071 (1999).6. M. I. Vasilevskiy, Effective Dielectric Response ofComposites Containing uniaxial inclusions, phys.stat.sol. (b) 219, 197 (2000)7. B. Houng, Tin doped indium oxide transparent conductingthin films containing silver nanoparticles bysol-gel technique, Appl. Phys. Lett. 87, 251922 (2005).8. B. Houng and C.-J. Huang, Structure and propertiesof Ag embedded aluminum doped ZnO nanocompositethin films prepared through a sol–gel process, Surfaceand Coatings Technology 201, 3188 (2006).
269. V. Kochergin, V. Zaporojtchenko, H. Takele, F. Faupel,H. Föll, Improved effective medium approach: Applicationto metal nanocomposites, J. of Applied Physics101, 024302 (2007).10. Wu, K.-Y., Wang, C.-C., Chen, D.-H., Preparation andconductivity enhancement of Al-doped zinc oxide thinfilms containing trace Ag nanoparticles by the sol-gelprocess, Nanotechnology 18, (30), 305604 (2007).11. Faupel F, Zaporojtchenko V, Greve H, et al., Depositionof nanocomposites by plasmas, Contributions toPlasma Physics 47 (7): 537-544 (2007).12. P. Szymczak, B. Cichocki, Diagrammatic approach toresponse problems in composite systems, J. Stat. Mech.(2008) P01025.13. Faupel, F., Zaporojtchenko, V., Strunskus, T., Greve,H., Schürmann, U., Takele, H., Hanisch, C., Chakravadhanula,V.S.K., Ni, N., Gerber, A., Quandt, E.,Podschun, R. Functional polymer nanocomposites 16,471 (2008)14. F Zhang, L Yang, D Ge Multifractal formation studiesof layer-by-layer deposited silver-containing indiumtin oxide nanocomposite films by GISAXS, PhysicaB: Condensed Matter 404, 2008 (2009)15. Faupel, F., Zaporojtchenko, V., Strunskus, T., Elbahri,M. Metal-polymer nanocomposites for functional applications,(2010) Advanced Engineering Materials, 12(12) pp. 1177-1190.16. Esquivel-Sirvent, R; Schatz, GC Mixing rules and theCasimir force between composite systems, PHYSICALREVIEW A 83 (4): Art. No. 042512 APR 20 201117. E. Lopez-Lopez, F. J. Sabina, R. Guinovart-Diaz, J.Bravo-Castillero, and R. Rodriguez-Ramos. Effectivepermittivity of a fiber-reinforced composite with transverselyisotropic constituents, Journal of Electrostatics,(0): 2013Artículo:Model approach to the calculation of the Si(111)- 7×7optical properties, Cecilia Noguez, A.I. Shkrebtii y R.Del Sole, Surface Science 318, 342 - 348, (1994).Lo citan(10):18. M. Roy and Y. Borensztein, Hydrogen adsorption on Sisurfaces by real-time surface reflectance spectroscopy,Surface Science, 331 - 333, 453 – 457 (1995).19. J.F. McGlip, Optical characterization of semiconductorsurfaces and interface, Progress in Surface Science49, 1 (1995).20. M. Rocca, Low-Energy EELS Investigation of SurfaceElectronic Excitations on Metals, Surface ScienceReports, 22, 1 – 71 (1995).21. * R. Del Sole en Photonic Probes of Surfaces, Vol.2pags. 131-174, editado por P. Halevi, North-Holland(1995).22. Z. Hammadi, M. Gauch, P. Muller y G. Quentel, Experimentalresults from spectroscopic ellipsometry onthe Si(111)-7×7 surface reconstruction: dielectric functiondetermination, Surface Science 341, 202 – 212(1995).23. McGilp JF, Optical second-harmonic generation as asemiconductor surface and interface probe, Phys. StatusSolidi A 175: (1) 153-167 (1999).24. McGilp JF, Second-harmonic generation at semiconductorand metal surfaces, Surf. Rev. Lett. 6: (3-4)529-558 (1999).25. N. Arzate and B.S. Mendoza, Microscopic studyof surface second- harmonic generation from cleanSi(111)c(4×2) surface, Phys. Rev B 63, 125303(2001).26. Tanaka M, Minami S, Shudo K, Yamakawa E, Isothermaldesorption process of Cl-covered Si(111) studiedby surface differential reflectivity spectroscopy SurfaceScience 527 (1-3): 21-29 MAR 10 200327. Shudo K, Sasaki T, Tanaka A, Shirao T, Real-time monitoringof the desorption process of chlorine-coveredSi(111)-1 x 1 surface with second-harmonic generation,Solid State Communications 127 (3): 203- 208JUL 2003.Artículo:The disorder effects on the effective dielectric response ofa linear chain of polarizable spheres, Cecilia Noguez, yRubén G. Barrera, Physica A, 211 (4), 399 – 410 (1994).Lo citan(6):28. Cruz J., Jongitud E., Mendoza B.S., Second-harmonicgeneration from disorded 1D chains of polarizable spheres,Physica A 241, 12 – 16 (1997).29. Cruz-Mandujano J, Mendoza BS Disorder effectson second-harmonic generation from one-dimensionalarrays of polarizable units Physi. Rev. B 62, 8438,(2000).30. Reyes-Esqueda J, Darracq B, Garcia-Macedo J, et al.Effect of chromophore-chromophore electrostatic interactionsin the NLO response of functionalized organicinorganic sol-gel materials, Opt. Commun. 198: (1-3)207-215 OCT 15 200131. Lazzari, R., Jupille, J. Quantitative analysis of nanoparticlegrowth through plasmonics, Nanotechnology22 (44), art. no. 445703 201132. Rico-Garcia, JM; Lopez-Alonso, JM; Aradian, A Toymodel to describe the effect of positional blocklikedisorder in metamaterials composites, JOURNALOF THE OPTICAL SOCIETY OF AMERICA B-OPTICAL PHYSICS, 29 (1):53-67; JAN 201233. Taylor, RW; Esteban, R; Mahajan, S; Coulston, R;Scherman, OA; Aizpunia, J; Baumberg, JJ SimpleComposite Dipole Model for the Optical Modesof Strongly-Coupled Plasmonic Nanoparticle Aggregates,JOURNAL OF PHYSICAL CHEMISTRY C, 116(47):25044-25051; 10.1021/jp308986c NOV 29 2012Artículo:Microscopic theory of electron transitions at Si(111)-7×7:optical properties and energy-loss spectra, Cecilia Noguez,A.I. Shkrebtii y R. Del Sole, Surface Science 331- 333, 1349 – 1354 (1994).Lo citan(20):34. J.F. McGlip, Optical characterization of semiconductorsurface and interface, Progress in Surface Science49, 1 (1995).35. Zorn M, Jonsson J, Richter W, Zettler JT, PloskaK, Anisotropic reflectance from semiconductor surfacesfor in-situ monitoring in epitaxial growth systems,Physica Status Solidi A-Applied Research 152 (1): 23-34 NOV 16 199536. K. Pedersen and P. Morgen, Dispersion of 2nd harmonicgeneration on Si(111)-7×7, Physical Review B 52,R2277 (1995).37. R. Del Sole en Photonic Probes of Surfaces, Vol.2 pags.131-174, editado por P. Halevi, North-Holland (1995).38. McGlip J.F. A review of optical 2nd-Harmonic andSum-Frequency Generation at Surfaces and Interfaces,Journal of Physics D: Applied Physics 29 1812 (1996).39. K. Pedersen and P. Morgen, Optical 2nd-HarmonicGeneration Spectrsocopy on Si(111)-7×7, Surf. Sci.377, 393 (1997).40. D. Fick, R. Veith, H. D. Ebinger, H. J. Jänsch, C. Weindel,H. Winnefeld, and J. J. Paggel Electron correlationsin the clean and hydrogen-covered Si(111)-(7×7)surface at extremely low Li coverages, Phys. Rev. B6087831999.41. McGilp JF, Optical second-harmonic generation as asemiconductor surface and interface probe, Phys StatusSolidi A 175: (1) 153-167 (1999).
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Page 9 and 10: 62. Pláticas invitadas nacionales
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Page 23 and 24: 63. Surface Plasmons on Metal Nanop
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Page 31 and 32: 2874. Shkrebtii AI, Esser N, Richte
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Page 57 and 58: 54of Silver Nanoparticles Embedded
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Page 77 and 78: 74OPTICS, 14 (12):10.1088/2040-8978
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