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Metal nanoparticle is of great importance for the study of surface plasmon resonance, and its functional assembly can show more excellent overall collaborative performance. We propose an efficient assembly of gold nanoparticles (GNP) through femtosecond laser fabrication without introducing additional modifier, which can not only retains the particle’s surface plasma resonance characteristic, but also realizes the assembling pattern of arbitrary subtle shape. We apply the assembly in microfluidic chip for surface-enhanced Raman scattering detection and achieve a very good enhancement. It provides a new approach for the preparation of plasma devices.
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Keywords:
- femtosecond laser fabrication /
- assembling of gold nanorod /
- patterns /
- surface-enhanced Raman scattering
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[3] Jiang Y, Wang H Y, Xie L P, Gao B R, Wang L, Zhang X L, Chen Q D, Yang H, Song H W, Sun H B 2010 J. Phys. Chem. C 114 2913
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[10] Zhou X, Wang Y, Zhong L B, Shi Y F, Zhang Q Q 2011 Scientia Sinica Chimica 41 956 (in Chinese) [周樨, 王艳, 钟鹭斌, 石延峰, 张其清, 2011 中国科学: 化学 41 956]
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[12] Masui K, Shoji S, Asaba K, Rodgers T C, Jin F, Duan X M, Kawata S 2011 Opt. Express 19 22786
[13] Kawata S, Sun H B, Tanaka T, Takada K 2001 Nature 412 697
[14] Kawata S, Sun H B 2003 Appl. Surf. Sci. 208–209 153
[15] Xiong W, Zhou Y S, He X N, Gao Y, Mahjouri-Samani M, Jiang L, Baldacchini T, Lu Y F 2012 Light Sci. Appl. 1 e6
[16] Xu B B, Zhang R, Wang H, Liu X Q, Wang L, Ma Z C, Chen Q D, Xiao X Z, Han B, Sun H B 2012 Nanoscale 4 6955
[17] Ma Z, Liu Q, Yang H, Runyan R B, Eisenberg C A, Xu M, Borg T K, Markwald R, Wang Y, Gao B Z 2013 Light Sci. Appl. 2 e68
[18] Tian Y, Zhang Y L, Ku J F, He Y, Xu B B, Chen Q D, Xia H, Sun H B 2010 Lab. Chip. 10 2902
[19] Taylor R A, Otanicar T, Rosengarten G 2012 Light Sci. Appl. 1 e34
[20] Zhang L, Dong W F, Tang Z Y, Song J F, Xia H, Sun H B 2010 Opt. Lett. 35 3297
[21] Zhang R, Xu B B, Liu X Q, Zhang Y L, Xu Y, Chen Q D, Sun H B 2012 Chem. Commun. 48 5913
[22] Huang Q, Zhao Y, Zhang X D 2012 Acta Phys. Sin. 61 157801 (in Chinese) [黄茜, 熊绍珍, 赵颖, 张晓丹 2012 物理学报 61 157801]
[23] Xia H, Wang J, Tian Y, Chen Q D, Du X B, Zhang Y L, He Y, Sun H B 2010 Adv. Mater. 22 3204
[24] Wang J, Xia H, Xu B B, Niu L G, Wu D, Chen Q D, Sun H B 2009 Opt. Lett. 34 581
[25] Zhang Y L, Chen Q D, Xia H, Sun H B 2010 Nano Today 5 435
[26] Wu D, Chen Q D, Niu L G, Wang J N, Wang J, Wang R, Xia H, Sun H B 2009 Lab. Chip. 9 2391
[27] Xu B B, Ma Z C, Wang L, Zhang R, Niu L G, Yang Z, Zhang Y L, Zheng W H, Zhao B, Xu Y, Chen Q D, Xia H, Sun H B 2011 Lab. Chip. 11 3347
[28] Xu B B, Zhang R, Liu X Q, Wang H, Zhang Y L, Jiang H B, Wang L, Ma Z C, Ku J F, Xiao F S, Sun H B 2012 Chem. Commun. 48 1680
[29] Xu B B, Ma Z C, Wang H, Liu X Q, Zhang Y L, Zhang X L, Zhang R, Jiang H B, Sun H B 2011 Eletrophoresis 32 3378
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[1] Gao B R, Wang H Y, Hao Y W, Fu L M, Fang H H, Jiang Y, Wang L, Chen Q D, Xia H, Pan L Y, Ma Y G, Sun H B 2009 J. Phys. Chem. B 114 128
[2] Hao Y W, Wang H Y, Jiang Y, Chen Q D, Ueno K, Wang W Q, Misawa H, Sun H B 2011 Angew. Chem. 123 7970
[3] Jiang Y, Wang H Y, Xie L P, Gao B R, Wang L, Zhang X L, Chen Q D, Yang H, Song H W, Sun H B 2010 J. Phys. Chem. C 114 2913
[4] Lepage D, Jimenez A, Beauvais J, Dubowski J J 2012 Light Sci. Appl. 1 e28
[5] Ding K, Ning C Z 2012 Light Sci. Appl. 1 e20
[6] Su Y H, Ke Y F, Cai S L, Yao Q Y 2012 Light Sci. Appl. 1 e14
[7] Zhang Z, Liu Q, Qi Z-M 2013 Acta Phys. Sin. 62 060703 (in Chinese) [张喆, 柳倩, 祁志美 2013 物理学报 62 060703]
[8] Kuo W S, Chang C N, Chang Y T, Yang M H, Chien Y H, Chen S J, Yeh C S 2010 Angew. Chem. 122 2771
[9] Ye T, Gao Y, Yin Y 2013 Acta Phys. Sin. 62 127801 (in Chinese) [叶通, 高云, 尹彦 2013 物理学报 62 127801]
[10] Zhou X, Wang Y, Zhong L B, Shi Y F, Zhang Q Q 2011 Scientia Sinica Chimica 41 956 (in Chinese) [周樨, 王艳, 钟鹭斌, 石延峰, 张其清, 2011 中国科学: 化学 41 956]
[11] Xia A G, Yang B, Jin J S, Zhang Y W, Tang F, Ye G X 2005 Acta Phys. Sin. 54 302 (in Chinese) [夏阿根, 杨波, 金进生, 张亦文, 汤凡, 叶高翔 2005 物理学报 54 302]
[12] Masui K, Shoji S, Asaba K, Rodgers T C, Jin F, Duan X M, Kawata S 2011 Opt. Express 19 22786
[13] Kawata S, Sun H B, Tanaka T, Takada K 2001 Nature 412 697
[14] Kawata S, Sun H B 2003 Appl. Surf. Sci. 208–209 153
[15] Xiong W, Zhou Y S, He X N, Gao Y, Mahjouri-Samani M, Jiang L, Baldacchini T, Lu Y F 2012 Light Sci. Appl. 1 e6
[16] Xu B B, Zhang R, Wang H, Liu X Q, Wang L, Ma Z C, Chen Q D, Xiao X Z, Han B, Sun H B 2012 Nanoscale 4 6955
[17] Ma Z, Liu Q, Yang H, Runyan R B, Eisenberg C A, Xu M, Borg T K, Markwald R, Wang Y, Gao B Z 2013 Light Sci. Appl. 2 e68
[18] Tian Y, Zhang Y L, Ku J F, He Y, Xu B B, Chen Q D, Xia H, Sun H B 2010 Lab. Chip. 10 2902
[19] Taylor R A, Otanicar T, Rosengarten G 2012 Light Sci. Appl. 1 e34
[20] Zhang L, Dong W F, Tang Z Y, Song J F, Xia H, Sun H B 2010 Opt. Lett. 35 3297
[21] Zhang R, Xu B B, Liu X Q, Zhang Y L, Xu Y, Chen Q D, Sun H B 2012 Chem. Commun. 48 5913
[22] Huang Q, Zhao Y, Zhang X D 2012 Acta Phys. Sin. 61 157801 (in Chinese) [黄茜, 熊绍珍, 赵颖, 张晓丹 2012 物理学报 61 157801]
[23] Xia H, Wang J, Tian Y, Chen Q D, Du X B, Zhang Y L, He Y, Sun H B 2010 Adv. Mater. 22 3204
[24] Wang J, Xia H, Xu B B, Niu L G, Wu D, Chen Q D, Sun H B 2009 Opt. Lett. 34 581
[25] Zhang Y L, Chen Q D, Xia H, Sun H B 2010 Nano Today 5 435
[26] Wu D, Chen Q D, Niu L G, Wang J N, Wang J, Wang R, Xia H, Sun H B 2009 Lab. Chip. 9 2391
[27] Xu B B, Ma Z C, Wang L, Zhang R, Niu L G, Yang Z, Zhang Y L, Zheng W H, Zhao B, Xu Y, Chen Q D, Xia H, Sun H B 2011 Lab. Chip. 11 3347
[28] Xu B B, Zhang R, Liu X Q, Wang H, Zhang Y L, Jiang H B, Wang L, Ma Z C, Ku J F, Xiao F S, Sun H B 2012 Chem. Commun. 48 1680
[29] Xu B B, Ma Z C, Wang H, Liu X Q, Zhang Y L, Zhang X L, Zhang R, Jiang H B, Sun H B 2011 Eletrophoresis 32 3378
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