Low-Cost Fabrication of Pt Thin Films with ... - IngentaConnect
Low-Cost Fabrication of Pt Thin Films with ... - IngentaConnect
Low-Cost Fabrication of Pt Thin Films with ... - IngentaConnect
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722 Plasmonics (2011) 6:715–7234. Dieringer JA, Wustholz KL, Masiello DJ, Camden JP, KleinmanSL, Schatz GC, Van Duyne RP (2009) Surface-enhanced Ramanexcitation spectroscopy <strong>of</strong> a single rhodamine 6G molecule. JnAm Chem Soc 131:849–8545. Sarkar S, Pande S, Jana S, Sinha AK, Pradhan M, Basu M, SahaS, Yusuf SM, Pal T (2009) Room temperature ferromagnetic Ninanocrystals: an efficient transition metal platform for manifestation<strong>of</strong> surface-enhanced Raman scattering. Jn Phys Chem C113:6022–60326. Roca M, Haes AJ (2008) Silica–void–gold nanoparticles: temporallystable surface-enhanced Raman scattering substrates. Jn AmChem Soc 130:14273–142797. Lombardi JR, Birke RL (2008) A unified approach to surfaceenhancedRaman spectroscopy. Jn Phys Chem C 112:5605–56178. Chang RK, Furtak TE (1982) Surface enhanced Raman scattering.Plenum, New York9. Campion A, Kambhampati P (1998) Surface-enhanced Ramanscattering. Chem Soc Rev 27:241–25010. Jiang J, Bosnick K, Maillard M, Brus L (2003) Single moleculeRaman spectroscopy at the junctions <strong>of</strong> large Ag nanocrystals. JnPhys Chem B 107:9964–997211. Leung L-H, Weaver MJ (1987) Extending surface-enhancedRaman spectroscopy to transition-metal surfaces: carbon monoxideadsorption and electrooxidation on platinum- and palladium-coatedgold electrodes. Jn Am Chem Soc 109:5113–511912. Park S, Yang P, Corredor P, Weaver MJ (2002) Transition metalcoatednanoparticle films: vibrational characterization <strong>with</strong>surface-enhanced Raman scattering. Jn Am Chem Soc124:2428–242913. Tian Z-Q, Ren B, Wu D-Y (2002) Surface-enhanced Ramanscattering: from noble to transition metals and from roughsurfaces to ordered nanostructures. J Phys Chem B 106:9463–948314. Abdelsalam ME, Mahajan S, Bartlett PN, Baumberg JJ, RussellAE (2007) SERS at structured palladium and platinum surfaces. JAm Chem Soc 129:7399–740615. Ikeda K, Sato J, Fujimoto N, Hayazawa N, Kawata S, Uosaki K(2009) Plasmonic enhancement <strong>of</strong> Raman scattering on non-SERS-active platinum substrates. J Phys Chem C 113:11816–1182116. Kim K, Kim KL, Lee HB, Shin KS (2010) Surface-enhancedRaman scattering on aggregates <strong>of</strong> platinum nanoparticles <strong>with</strong>definite size. J Phys Chem C 114:18679–1868517. Mahima S, Vijayamohana KP (2008) Shape-dependent electrocatalyticactivity <strong>of</strong> platinum nanostructures. J Mater Chem18:5858–587018. Chen A, Holt-Hindle P (2010) Platinum-based nanostructuredmaterials: synthesis, properties, and applications. Chem Rev110:3767–380419. Guerrini L, Lopez-Tobar E, Garcia-Ramos JV, Domingo C,Sanchez-Cortes S (2011) New insights on the Au core /<strong>Pt</strong> shellnanoparticle structure in the sub-monolayer range: SERS as asurface analyzing tool. Chem Commun 47:3174–317620. Marquestaut N, Martin A, Talaga D, Servant L, Ravaine S,Reculusa S, Bassani DM, Gillies E, Lagugne’-Labarthet F(2008) Raman enhancement <strong>of</strong> azobenzene monolayers onsubstrates prepared by Langmuir–Blodgett deposition andelectron-beam lithography techniques. Langmuir 24:11313–1132121. Kahl M, Voges E, Kostrewa S, Viets C, Hill W (1998) Periodicallystructured metallic substrates for SERS. Sensor Actuat B 51:285–29122. Gopinath A, Boriskina VS, Premasiri WR, Ziegler L, ReinhardMB, Dal Negro L (2009) Plasmonic nanogalaxies: multiscaleaperiodic arrays for surface-enhanced raman sensing. Nano Lett9:3922–392923. Tao A, Kim F, Hess C, Goldberger J, He R, Sun Y, Xia Y, Yang P(2003) Langmuir–Blodgett silver nanowire monolayers formolecular sensing using surface-enhanced Raman spectroscopy.Nano Lett 3:1229–123324. Mahmoud MA, Tabor CE, El-Sayed MA (2009) Surface-enhancedRaman scattering enhancement by aggregated silver nanocubemonolayers assembled by the Langmuir–Blodgett technique atdifferent surface pressures. Jn Phys Chem C 113:5493–550125. Jung HY, Park Y-K, Park S, Kim SK (2007) Surface enhancedRaman scattering from layered assemblies <strong>of</strong> close-packed goldnanoparticles. Anal Chim Acta 602:236–24326. Yun S, Oh MK, Kim SK, Park S (2009) Linker-molecule-free goldnanorod films: effect <strong>of</strong> nanorod size on surface enhanced Ramanscattering. Jn Phys Chem C 113:13551–1355727. Oh MK, Yun S, Kim SK, Park S (2009) Effect <strong>of</strong> layer structures<strong>of</strong> gold nanoparticle films on surface enhanced Raman scattering.Anal Chim Acta 649:111–11628. Lu Y, Amit L (2010) Vacuum-free self-powered parallel electronlithography <strong>with</strong> sub-35-nm resolution. Nano Lett 10:2197–220129. Lee K-R, Kwon Y-U (2010) Hard templates for fabrication <strong>of</strong>nanostructured films. NANO 5:75–87, references therein30. Sauer G, Brehm G, Schneider S, Graener H, Seifert G, Nielsch K,Choi J, Göring P, Gösele U, Miclea P, Wehrspohn RB (2006)Surface-enhanced Raman spectroscopy employing monodispersenickel nanowire arrays. Appl Phys Lett 88:02310631. Yao J-L, Tang J, Wu D-Y, Sun D-M, Xue K-H, Ren B, Mao B-W,Tian Z-Q (2002) Surface enhanced Raman scattering fromtransition metal nano-wire array and the theoretical consideration.Surf Sci 514:108–11632. Ruan C, Eres G, Wang W, Zhang Z, Gu B (2007) Controlledfabrication <strong>of</strong> nanopillar arrays as active substrates for surfaceenhancedRaman spectroscopy. Langmuir 23:5757–576033. Luo Z, Peng A, Fu H, Ma Y, Yao J, Loo BH (2008) Anapplication <strong>of</strong> AAO template: orderly assembled organicmolecules for surface-enhanced Raman scattering. Jn MaterChem 18:133–13834. U-H Lee, J-H Yang, H-J Lee, J-Y Park, K-R Lee, Y-U Kwon(2008) Facile and adaptable synthesis method <strong>of</strong> mesostructuredsilica thin films. J Mater Chem 18:1881–188835. U-H Lee, Lee JH, D-Y Jung, Y-U Kwon (2006) High densityarrays <strong>of</strong> platinum nanostructures and their hierarchical patterns.Adv Mater 18:2825–282836. Fukuoka A, Araki H, J-i Kimura, Sakamoto Y, Higuchi T,Sugimoto N, Inagaki S, Ichikawa M (2004) Template synthesis<strong>of</strong> nanoparticle arrays <strong>of</strong> gold, platinum and palladium inmesoporous silica films and powders. J Mater Chem 14:752–75637. H-J Lee, U-H Lee, J-Y Park, S-H Yoo, Park S, Y-U Kwon (2009)Platinum films <strong>with</strong> controlled 3-dimensional nanoscopicmorphologies and their effects on surface enhanced Ramanscattering. Chem-An Asian Jn 4:1284–128838. Draine BT, Flatau PJ (1994) Discrete dipole approximation forscattering calculations. Jn Opt Soc Am A 11:1491–149939. B. T. Draine, and P. J. Flatau, (2010), User guide to the discretedipole approximation code DDSCAT 7.1, http://arXiv.org/abs/1002.1505v1.40. Ung B, Sheng Y (2007) Interference <strong>of</strong> surface waves in ametallic nanoslit. Opt Express 15:1182–119041. Rakic AD, Djurišic AB, Elazar JM, Majewski ML (1998) Opticalproperties <strong>of</strong> metallic films for vertical-cavity optoelectronicdevices. Appl Optics 37:5271–528342. Clavilier J (1999) In: Wieckowski A (ed) Interfacial electrochemistry.Marcel Dekker, New York43. Jiang J, Bosnick K, Maillard M, Brus L (2003) Single moleculeRaman spectroscopy at the junctions <strong>of</strong> large Ag nanocrystals. JPhys Chem B 107:9964–9972