Copyright (c) 2013 AJC
This work is licensed under a Creative Commons Attribution 4.0 International License.
Assembly of Gold Nano Particles on a Modified Glass Silicone Surface
Corresponding Author(s) : Shashidhar
Asian Journal of Chemistry,
Vol. 25 No. 2 (2013): Vol 25 Issue 2
Abstract
Recent development in the field of technologies has pushed towards miniaturization of materials on the nanometer levels which are critical and encouraging to design of new nanoscale materials systems which is having a novel and/or enhanced properties without resorting to new synthetic chemistry with the associated environmental and cost issues. In order to discuss these issues an effort was made to describe a facile method for stabilizing gold nano-particles over a modified cover glass surface layers of dimension 18 mm × 18 mm samples. In this study, the different sized gold nano-particles were synthesized by standard methods. The modified glass surfaces containing assembled gold nano-particles were analyzed by scanning electron microscopy, transmission electron microscopy, atomic force microscpy and other spectral studies. With this method, uniformly shaped rods with high aspect ratio can be prepared and assembled.
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- A.I. Hochbaum, R. Fan, R. He and P. Yang, Nano Lett., 5, 457 (2005).
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- E.S. Snow and P.M. Campbell, Appl. Phys. Lett., 64, 1932 (1994).
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- A. Ulman, Chem. Rev., 96, 1533 (1996).
- H.Z. Yu, A.W. Rowe and D.M. Waugh, Anal. Chem., 74, 5742 (2002).
- H. Sugimura and N. Nakagiri, J. Am. Chem. Soc., 119, 9226 (1997).
- Y. Masuda, M. Itoh, T. Yonezawa and K. Koumoto, Langmuir, 18, 4155 (2002).
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- R. Martel, A. Ph and I.W. Lyo, Science, 272, 385 (1996).
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- N.R. Jana, L. Gearheart and C.J. Murphy, J. Phys. Chem B., 105, 4067 (2001).
References
A.I. Hochbaum, R. Fan, R. He and P. Yang, Nano Lett., 5, 457 (2005).
W.P. Wuelfing and R.W. Murray, J. Phys. Chem. B, 106, 3139 (2002).
S.A. Maier, P.G. Kik, H.A. Atwater, S. Meltzer, E. Harel, B.E. Koel and A.A.G. Requicha, Nat. Mater., 2, 229 (2003).
J.F. Hicks, F.P. Zamborini,A.J. Osisek and R.W. Murray, J. Am. Chem. Soc., 123, 7048 (2001).
C.K. Harnett, K.M. Satyalakshmi and H.G. Craighead, Appl. Phys. Lett., 76, 2466 (2000).
J.L. Plaza, Y. Chen, S. Jacke and R.E. Palmer, Langmuir, 21, 1556 (2005).
K.B. Lee, J.H. Lim and C.A. Mirkin, J. Am. Chem. Soc., 125, 5588 (2003).
C.F. Chen, S.D. Tzeng, M.H. Lin and S. Gwo, Langmuir, 22, 7819 (2006).
S. Liu, R. Maoz and J. Sagiv, Nano Lett., 4, 845 (2004).
X. Ling, X. Zhu, J. Zhang, T. Zhu, M. Liu, L. Tong and Z. Liu, J. Phys. Chem. B, 109, 2657 (2005).
G.Y. Liu, S. Xu and Y. Qian, Acc. Chem. Res., 33, 457 (2000).
E.S. Snow and P.M. Campbell, Appl. Phys. Lett., 64, 1932 (1994).
E.S. Snow and P.M. Campbell, Science, 270, 1639 (1995).
F.S.S. Chien, C.L. Wu, Y.C. Chou, T.T. Chen, S. Gwo and W.F. Hsieh, Appl. Phys. Lett., 75, 2429 (1999).
T. Yoshinobu, J. Suzuki, H. Kurooka, W.C. Moon and H. Iwasaki, Electrochim. Acta, 48, 3131 (2003).
A. Ulman, Chem. Rev., 96, 1533 (1996).
H.Z. Yu, A.W. Rowe and D.M. Waugh, Anal. Chem., 74, 5742 (2002).
H. Sugimura and N. Nakagiri, J. Am. Chem. Soc., 119, 9226 (1997).
Y. Masuda, M. Itoh, T. Yonezawa and K. Koumoto, Langmuir, 18, 4155 (2002).
D. Wouters and U.S. Schubert, Langmuir, 19, 9033 (2003).
Q. Li, J. Zheng and Z. Liu, Langmuir, 19, 166 (2003).
S. Hoeppener, R. Maoz, S.R. Cohen, L. Chi, H. Fuchs and J. Sagiv, Adv. Mater., 14, 1036 (2002).
R. Martel, A. Ph and I.W. Lyo, Science, 272, 385 (1996).
S.W. Hla, G. Meyer and K.H. Rieder, Chem. Phys. Lett., 370, 431 (2003).
N.R. Jana, L. Gearheart and C.J. Murphy, J. Phys. Chem B., 105, 4067 (2001).