氧化石墨烯负载金纳米颗粒SERS活性基底的制备与研究
尤磊, 李利军, 程昊, 赵彦勇, 魏慧丹, 李彦青. 氧化石墨烯负载金纳米颗粒SERS活性基底的制备与研究[J]. 光散射学报, 2015, 27(4): 0320.
YOU Lei, LI Li-jun, CHENG Hao, ZHAO Yan-yong, WEI Hui-dan, LI Yan-qing. Preparation and Study of GO Decorated with Au Nanoparticles as SERS Active Substrate[J]. The Journal of Light Scattering, 2015, 27(4): 0320.
[1] Nie,Emoty S R,Probing single molecule and single nanoparticles by surface-enhanced Raman scattering[J].Science,1997,275(21):1102-1106.
[2] Kneipp K H,Itzkan I,Dasari R,et al.Ultrasensitive chemical analysis by Raman spectroscopy[J].Chem Rev,1999(99):2957-2975.
[3] Qian X M,Nie S M.Single-molecule and single-nanoparticle SERS:from fundamental mechanisms to biomedical applications[J].Chem Soc Rev,2008,37(5):912-920.
[4] Braun G,Lee S J,Dante M,et al .Surface-enhanced Raman spectroscopy for DNA detection by nanoparticle assembly onto smooth metal films[J].Am Chem Soc,2007,129(20):6378-6379.
[5] Tian Z Q,Ren B,Wu D Y.Surface-enhanced Raman scattering:From noble to transition metals and from rough surfaces to ordered nanostructures[J].Phy Chem B,2002,37(106):9463-9483.
[6] Lee S J,Guan Z Q,M.Moskovits, et al. Surface-enhanced Raman spectroscopy and nanogeometry:the plasmonic origin of SERS[J].Phys Chem C,111(2007):17985-17988.
[7] Alvarez-Puebla R,Cui B,Bravo-Vasquez J P,et al.Nano imprinted SERS-active substrates with tunable surface Plasmon resonances[J].Phys Chem C,2007,111(18):6720-6723.
[8] Freeman R G,Grabar K C,Natan M J, et al.Self-assembled metal colloid monolayers:an approach to SERS substrates[J] .Science,1995,267(5204):1627- 1632.
[9] Fang P P,Li J F,Tian Z Q,et al .Optimization of SERS activities of gold nanoparticles and gold core-palladium-shell nanoparticles by controlling size and shell thickness[J].J Raman Spec,2008,39:1679-1687.
[10] Frens G.Controlled nucleation for the regulation of the particle size in monodisperse gold solutions[J].Nature Phys Sci,1973,241(105):20-22.
[11] Lin X M,Ren B,Tian Z Q,et al.Surface-enhanced Raman spectroscopy- substrate related issues[J].Anal Bioanal Chem,2009(394):1729-1745.
[12] Zhu Y,Murali S,Cai,W, et al. Graphene and graphene oxide:synthesis,properties,and applications[J].Adv Mater,2010(22):3906-3924.
[13] Wang Y,Li Z,Wang J, et al.Graphene and graphene oxide:biofunctionalization and applications in biotechnology[J].Trends Biot.2011(29):205-212.
[14] Soumen D,Chaiti R,Sougata S,et al. Silver nanoparticle decorated reduced graphene oxide(rGO)nanosheet:a platform for SERS based low-level detection of uranyl ion[J].ACS Appl Mater Interf,2013(5):8724-8732.
[15] Xu W G,Mao N N,Zhang J.Graphene:a platform for surface-enhanced Raman spectroscopy[J].Smal Rev,2013(8):1206-1224.
[16] Xie L M,Ling X,Fang Y Z,et al. Graphene as a substrate to suppress fluorescence in resonance Raman spectroscopy[J].AM Chem Soc,2009(131):9890-9891.
[17] Fang Y,Guo S,Zhu C,et al.Self-assembly of cationic polyelectrolyte-functionalized graphene nanosheets and gold nanoparticles:a two-dimensional heterostructure for hydrogen peroxide sensing[J].Langmuir,2010(26):11277-11282.
[18] Mulpur P,Podila R,Lingam K, et al.Amplification of surface Plasmon coupled emission from graphene-Ag hybrid films[J].Phys Chem C,2013(117):17205-17210.
[19] 汤健,刘爱萍,李培刚等,界面自助装的金/氧化石墨烯复合材料的表面增强拉曼散射行为研究[J]。物理学报2014(10):107801
Tang J,Liu A P,Li P G, et al.Surface-enhanced Raman scattering of gold/grahene oxide composte materials fabricated by interface self-assembling.[J].Acta Phys Sin-Ch Ed,2014(10):107801.
尤磊, 李利军, 程昊, 赵彦勇, 魏慧丹, 李彦青. 氧化石墨烯负载金纳米颗粒SERS活性基底的制备与研究[J]. 光散射学报, 2015, 27(4): 0320. YOU Lei, LI Li-jun, CHENG Hao, ZHAO Yan-yong, WEI Hui-dan, LI Yan-qing. Preparation and Study of GO Decorated with Au Nanoparticles as SERS Active Substrate[J]. The Journal of Light Scattering, 2015, 27(4): 0320.