Fabrication of Large-area 3-D Ordered Silver-coated Colloidal Crystals and Macroporous Silver Films Using Polystyrene Templates
详细信息    查看全文
  • 作者:Wen Zhu ; Yuanyuan Wu ; Chengyin Wang ; Ming Zhang ; Guanxiu Dong
  • 关键词:Polystyrene colloidal crystal ; Template ; Dopamine ; Silver ; coated array ; Ordered macroporous film
  • 刊名:Nano-Micro Letters
  • 出版年:2013
  • 出版时间:September 2013
  • 年:2013
  • 卷:5
  • 期:3
  • 页码:182-190
  • 全文大小:902KB
  • 参考文献:[1]K. A. Willets and R. P. Van Duyne, 鈥淟ocalized surface plasmon resonance spectroscopy and sensing鈥? Annu. Rev. Phys. Chem. 58(1), 267鈥?97 (2007). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1146/annurev.physchem.58.032806.104607CrossRef
    [2]A. M. Schwartxberg and J. Z. Zhang, 鈥淣ovel optical properties and emerging applications of metal nanostructures鈥? J. Phys. Chem. C 112(28), 10323鈥?0337 (2008). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/jp801770wCrossRef
    [3]C. H. Xu, B. Xie, Y. J. Liu, L. B. He and M. Han, 鈥淥ptimizing surface-enhanced Raman scattering by template guided assembling of closely spaced silver nanocluster arrays鈥? Eur. Phys. J. D 52(1鈥?), 111鈥?14 (2009). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1140/epjd/e2009-00057-1CrossRef
    [4]R. C. Jin, Y. C. Cao, E. C. Hao, G. S. Mdtraux, G. C. Schatz and C. A. Mirkin, 鈥淐ontrolling anisotropic nanoparticle growth through plasmon excitation鈥? Nature 425, 487鈥?90 (2003). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1038/nature02020CrossRef
    [5]K. L. Kelly, E. C. Coronado, L. L. Zhao and G. C. Schatz, 鈥淭he optical properties of metal nanoparticles: the influence of size, shape, and dielectric environment鈥? J. Phys. Chem. B 107(3), 668鈥?77 (2003). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/jp026731yCrossRef
    [6]A. J. Haes, S. L. Zou, G. C. Schatz and R. P. Van Duyne, 鈥淣anoscale optical biosensor: short range distance dependence of the localized surface plasmon resonance of noble metal nanoparticles鈥? J. Phys. Chem. B 108(1), 109鈥?16 (2004). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/jp0361327CrossRef
    [7]E. Hao, S. Y. Li, R. C. Bailey, S. L. Zou, G. C. Schatz and J. T. Hupp, 鈥淥ptical properties of metal nanoshells鈥? J. Phys. Chem. B 108(4), 1224鈥?229 (2004). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/jp036301nCrossRef
    [8]E. M. Hicks, S. Zou, G. C. Schatz, K. G. Spears, R. P. Van Duyne, L. Gunnarsson, T. Rindzevicius, B. Kasemo and M. Kall, 鈥淐ontrolling plasmon line shapes through diffractive coupling in linear arrays of cylindrical nanoparticles fabricated by electron beam lithography鈥? Nano Lett. 5(6), 1065鈥?070 (2005). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/nl0505492CrossRef
    [9]Y. Yang, M. Tanemura, Z. R. Huang, D. L. Jiang, Z. Y. Li, Y. P. Huang, G. Kawamura, K. Yamaguchi and M. Nogami, 鈥淎ligned gold nanoneedle arrays for surface-enhanced Raman scattering鈥? Nanotechnology 21, 325701 (2010). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1088/0957-4484/21/32/325701CrossRef
    [10]X. J. Cheng, S. C. Tjong, Q. Zhao and R. K. Y. Li, 鈥淔acile method to prepare monodispersed Ag/polystyrene composite microspheres and their properties鈥? J. Polym. Sci. A Polym. Chem. 47, 4547鈥?554 (2009). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1002/pola.23507CrossRef
    [11]C. Ruan, G. Eres, W. Wang, Z. Zhang and B. Gu, 鈥淐ontrolled fabrication of nanopillar arrays as active substrates for surface-enhanced Raman spectroscopy鈥? Langmuir 23(10), 5757鈥?760 (2007). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/la0636356CrossRef
    [12]Juha M. Kontio, Hannu Husu, Janne Simonen, Mikko J. Huttunen, Juha Tommila, Markus Pessa and Martti Kauranen, 鈥淣anoimprint fabrication of gold nanocones with 鈮?0 nm tips for enhanced optical interactions鈥? Opt. Lett. 34(13), 1979鈥?981 (2009). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1364/OL.34.001979CrossRef
    [13]O. D. Velev and E. W. Kaler, 鈥淪tructured porous materials via colloidal crystal templating: from inorganic oxides to metals鈥? Adv. Mater. 12(7), 531鈥?34 (2000). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1002/(SICI)1521-4095(200004)12:7<531::AID-ADMA531>3.0.CO;2-SCrossRef
    [14]H. Yabu, Y. Hirai and M. Shimomura, 鈥淓lectroless plating of honeycomb and pincushion polymer films prepared by self-organization鈥? Langmuir 22(23), 9760鈥?764 (2006). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/la062228rCrossRef
    [15]S. H. Lee, K. C. Bantz, N. C. Lindquist, S. H. Oh and C. L. Haynes, 鈥淪elf-assembled plasmonic nanohole arrays鈥? Langmuir 25(23), 13685鈥?3693 (2009). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/la9020614CrossRef
    [16]F. Caruso, M. Spasova, A. Susha, M. Giersig and R. A. Caruso, 鈥淢agnetic nanocomposite particles and hollow spheres constructed by a sequential layering approach鈥? Chem. Mater. 13(1), 109鈥?16 (2001). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/cm001164hCrossRef
    [17]Y. N. Fu, Z. G. Jin, Z. F. Liu, Y. Liu and W. Li, 鈥淪elf-assembly of colloidal crystals from polystyrene emulsion at elevated temperature by dip-drawing method鈥? Mater. Lett. 62(27), 4286鈥?289 (2008). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1016/j.matlet.2008.07.004CrossRef
    [18]H. Lee, S. M. Dellatore, W. M. Miller and P. B. Messersmith, 鈥淢ussel-inspired surface chemistry for multifunctional coatings鈥? Science 318(5849), 426鈥?30 (2007). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1126/science.1147241CrossRef
    [19]T. Aslamazova and S. Bogdanova, 鈥淧olymer-monomer and polymer-polymer interactions and their effect on the stability of emulsifier-free acrylate latexes鈥? Colloids and Surfaces A: Physicochem. Eng. Aspects 104(2), 147鈥?55 (1995). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1016/0927-7757(95)03263-8CrossRef
    [20]Z. Y. Zhong, Y. D. Yin, B. Gates and Y. N. Xia, 鈥淧reparation of mesoscale hollow Spheres of TiO2 and SnO2 by templating against crystalline arrays of polystyrene beads鈥? Adv. Mater. 12(3), 206鈥?09 (2000). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1002/(SICI)1521-4095 (200002)12:3<206::AID-ADMA206>3.0.CO;2-5CrossRef
    [21]C. E. Reese, C. D. Guerrero, J. M. Weissman, K. Lee and S. A. Asher, 鈥淪ynthesis of highly charged, monodisperse polystyrene colloidal particles for the fabrication of photonic crystals鈥? J. Colloid Interf. Sci. 232(1), 76鈥?0 (2000). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1006/jcis.2000.7190CrossRef
    [22]Y. Kobayashi, V. Salgueirino-Maceira and L. M. Liz-Marzan, 鈥淒eposition of silver nanoparticles on silica spheres by pretreatment steps in electroless plating鈥? Chem. Mater. 13(5), 1630鈥?633 (2001). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/cm001240gCrossRef
    [23]Y. Saito, T. Kawano, M. Shimomura and H. Yabu, 鈥淔abrication of mussel-inspired highly adhesive honeycomb films containing catechol groups and their applications for substrate-independent porous templates鈥? Macromol. Rapid Comm. 34(8), 630鈥?34 (2013). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1002/marc.201200839CrossRef
    [24]J. Zhang, J. Liu, S. Wang, P. Zhan, Z. Wang and N. Ming, 鈥淔acile methods to coat polystyrene and silica colloids with metal鈥? Adv. Funct. Mater. 14(11), 1089鈥?096 (2004). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1002/adfm.200400119CrossRef
    [25]Y. Kobayashi, Y. Tadaki, D. Nagao and M. Konno, 鈥淒eposition of gold nanoparticles on silica spheres by electroless metal plating technique鈥? J. Colloid Interf. Sci. 283(2), 601鈥?04 (2005). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1016/j.jcis.2004.09.002CrossRef
    [26]A. V. Neimark, P. I. Ravikovitch and A. Vishnyakov, 鈥淏ridging scales from molecular simulations to classical thermodynamics: density functional theory of capillary condensation in nanopores鈥? J. Phys. Condens Matter 15(3), 347鈥?65 (2003). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1088/0953-8984/15/3/303CrossRef
    [27]X. C. Yang, H. X. Liu, L. L. Li, M. Huang and J. F. Zhao, 鈥淩eview on influence factors of surface plasmon resonance for nobel metal nanoparticles鈥? J. Funct. Mater. 2(41), 341鈥?49 (2010).
    [28]Y. Lu, Y. D. Yin, Z. Y. Li and Y. N. Xia, 鈥淪ynthesis and self-assembly of Au@SiO2 core-shell colloids鈥? Nano Lett. 2(7), 785鈥?88 (2002). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/nl025598iCrossRef
    [29]Y. G. Sun, S. Matsubara, M. Nogami, J. Shi and W. Huang, 鈥淥ne-dimensional self-assembly of gold nanoparticles for tunable surface plasmon resonance properties鈥? Nanotechnology 17(11), 2821鈥?827 (2006). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1088/0957-4484/17/11/015CrossRef
    [30]B. Guo, J. S. Luo, Y. J. Tang and J. P. Cheng, 鈥淧reparation of triangular silver nanoplates by seed-mediated growth and their characterization鈥? High Power Laser and Particle Beams 19(8), 1291鈥?294 (2007).
    [31]A. I. Maaroof, J. V. Nygaard and D. S. Sutherland, 鈥淧lasmon hybridization in silver nanoislands as semishells arrays coupled to a thin metallic film鈥? Plasmonics 6(2), 419鈥?25 (2011). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1007/s11468-011-9220-9CrossRef
    [32]J. F. Li, Y. F. Huang and Y. Ding, 鈥淪hell-isolated nanoparticle-enhanced Raman spectroscopy鈥? Nature 464(7287), 392鈥?95 (2010). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1038/nature08907CrossRef
    [33]E. Hao and G. C. Schatz, 鈥淓lectromagnetic fields around silver nanoparticles and dimers鈥? J. Chem. Phys. 120(1), 357鈥?66 (2004). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1063/1.1629280CrossRef
    [34]P. Hildebrandt and M. Stockburger, 鈥淪urface-enhanced resonance Raman spectroscopy of rhodamine 6G adsorbed on colloidal silver鈥? J. Phys. Chem. 88(24), 5935鈥?944 (1984). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/j150668a038CrossRef
    [35]L. H. Qian, X. Q. Yan, T. Fujita, A. Inoue and M. W. Chen, 鈥淪urface enhanced Raman scattering of nanoporous gold: smaller pore sizes stronger enhancements鈥? Appl. Phys. Lett. 90(15), 153120鈥?53123 (2007). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1063/1.2722199CrossRef
    [36]X. Y. Lang, P. F. Guan, L. Zhang, T. Fujita and M. W. Chen, 鈥淪ize dependence of molecular fluorescence enhancement of nanoporous gold鈥? Appl. Phys. Lett. 96(7), 073701 (2010). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1063/1.3323CrossRef
    [37]J. M. Kontio, J. Simonen, J. Tommila and M. Pessa, 鈥淎rrays of metallic nanocones fabricated by UV-nanoimprint lithography鈥? Microelectron. Eng. 87(9), 1711鈥?715 (2010). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1016/j.mee.2009.08.015CrossRef
    [38]L. Kong, R. Dong, H. Ma and J. C. Hao, 鈥淎u NP honeycomb-patterned films with controllable pore size and their surface-enhanced Raman scattering鈥? Langmuir 29(13), 4235鈥?241 (2013). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1021/la305143vCrossRef
    [39]L. Shi, X. H. Liu, H. W. Yin and J. Zi, 鈥淥ptical response of a flat metallic surface coated with a monolayer array of latex spheres鈥? Phys. Lett. A 374(8), 1059鈥?062 (2010). http://鈥媎x.鈥媎oi.鈥媜rg/鈥?/span> 10.1016/j.physleta.2009.12.033CrossRef
  • 作者单位:Wen Zhu (17) (27)
    Yuanyuan Wu (17)
    Chengyin Wang (17)
    Ming Zhang (17)
    Guanxiu Dong (27)

    17. College of Chemistry and Chemical Engineering, Yangzhou University, Yangzhou City, 225002, China
    27. College of Materials Science and Engineering, Jiangsu University of Technology, Changzhou City, 213001, China
  • 刊物类别:Nanotechnology and Microengineering; Nanotechnology; Nanoscale Science and Technology;
  • 刊物主题:Nanotechnology and Microengineering; Nanotechnology; Nanoscale Science and Technology;
  • 出版者:Springer Berlin Heidelberg
  • ISSN:2150-5551
文摘
The highly ordered silver-coated colloidal crystals arrays and macroporous silver films were derived through an electrostatics-induced adsorption effect using polystyrene (PS) as templates. Carboxyl-modified PS microspheres were prepared by emulsifier-free emulsion polymerization using methacrylic acid (MAA) as the functional monomer. PS microspheres were self-assembled into close packing colloidal crystals of facecentered cubic arrays to the substrate with vertical deposition method. These colloidal crystals were modified using dopamine (DA) to form poly-dopamine (PDA) during its oxidative polymerization. Through electrostatic interaction, the silver nanoparticles were deposited and adsorbed onto the surfaces of colloidal crystals templates by exposing [Ag(NH3)2]+ solution to infrared irradiation. Removal of the polymeric template by etching with methylbenzene solvent resulted in 3D ordered macroporous silver films. The structural and properties of the ordered silver-coated arrays and macroporous silver films were characterized by field emission scanning electron microscopy (FE-SEM), X-ray diffraction (XRD), UV-vis spectroscopy and surface-enhanced Raman spectroscopy (SERS). The results indicate that the prepared silver-coated arrays and macroporous silver films possess the features of ordered multilayer arrangement, uniformity and repeatability as well as an ideal SERS effect. Keywords Polystyrene colloidal crystal Template Dopamine Silver-coated array Ordered macroporous film

© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号

地址:北京市海淀区学院路29号 邮编:100083

电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700