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In the process of fabricating two-dimensional Ag nano-arrays via nanosphere lithography, different deposition methods present different lattice point shapes of Ag nanostructure. Nano-triangles are produced by thermal evaporation whereas nano-rings are obtained by electron beam evaporation although they are both of hexagonal lattice. It is indicated that the sizes, the surface nanocurvature, the thermal and the kinetic energies of the particles deposited are key factors controlling the formation of the shape of Ag lattice point.
[1] Ayad M M, Prastomo N, Matsuda A, Stejskal J 2010 Synth. Met. 160 42
[2] [3] Zhu S L, Du C L, Fu Y Q 2009 Opt. Mater. 31 769
[4] [5] Wang G, Duan M Y, Cui Y P, Zhang Y, Liu M 2005 Acta Phys. Sin. 54 144 ( in Chinese ) [王 刚、端木云、崔一平、张 宇、刘 宓 2005 54 144]
[6] Zhu B H, Wang F F, Zhang K, Ma G H, Gu Y Z, Guo L J, Qian S X 2008 Acta Phys. Sin. 57 3058 ( in Chinese) [朱宝华、王芳芳、张 琨、马国宏、顾玉宗、郭立俊、钱士雄 2008 57 3085 ]
[7] [8] Endo T, Yamamura S, Kerman K, Tamiya E 2008 Anal. Chim. Acta 614 182
[9] [10] Bai Y, Yang H, Yang W W, Y C, Sun C Q 2007 Sensor Actuat. B 124 179
[11] [12] Yonzon C R, Stuart D A, Zhang X Y, McFarland A D, Haynes C L, Van Duyne R P 2005 Talanta 67 438
[13] [14] [15] Sanci R, Volkan M 2009 Sensor Actuat. B 139 150
[16] Zhu X, Yang H F, Wang N, Zhang R, Song W, Sun Y P, Duan G P, Ding W, Zhang Z G 2010 J. Colloid Interf. Sci. 342 571
[17] [18] DeRose G A, Zhu L, Poon J K S, Yariv A, Scherer A 2008 Microelectron. Eng. 85 758
[19] [20] [21] Barbillon G, Bijeon J L, Plain J, Lamy de la Chapelle M, Adam P M, Royer P 2007 Surf. Sci. 601 5057
[22] [23] Stodolka J, Nau D, Frommberger M, Zanke C, Giessen H, Quandt E 2005 Microelectron. Eng. 78 442
[24] Sun P, Xu L, Zhao W M, Li W, Xu J, Ma Z Y, Wu L C, Huang X F, Chen K J 2008 Acta Phys. Sin. 57 1951 (in Chinese) [孙 萍、徐 岭、赵伟明、李 卫、徐 骏、马忠元、吴良才、黄信凡、陈坤基 2008 57 1951]
[25] [26] [27] Wang K, Yang G, Long H, Li Y H, Dai N L, Lu P X 2008 Acta Phys. Sin. 57 3862 ( in Chinese) [王 凯、杨 光、龙 华、李玉华、戴能利、陆培祥 2008 57 3862 ]
[28] Canpean V, Astilean S, Petrisor T Jr, Gabor M, Ciascai I 2009 Mater. Lett. 63 1834
[29] [30] [31] Li W, Zhao W M, Sun P 2009 Physica E 41 1600
[32] [33] Zhu X F, Wang Z G 2006 Int. J. Nanotechnol. 3 492
[34] [35] Zhu X F 2003 J. Phys.: Condens. Matter 15 253
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[1] Ayad M M, Prastomo N, Matsuda A, Stejskal J 2010 Synth. Met. 160 42
[2] [3] Zhu S L, Du C L, Fu Y Q 2009 Opt. Mater. 31 769
[4] [5] Wang G, Duan M Y, Cui Y P, Zhang Y, Liu M 2005 Acta Phys. Sin. 54 144 ( in Chinese ) [王 刚、端木云、崔一平、张 宇、刘 宓 2005 54 144]
[6] Zhu B H, Wang F F, Zhang K, Ma G H, Gu Y Z, Guo L J, Qian S X 2008 Acta Phys. Sin. 57 3058 ( in Chinese) [朱宝华、王芳芳、张 琨、马国宏、顾玉宗、郭立俊、钱士雄 2008 57 3085 ]
[7] [8] Endo T, Yamamura S, Kerman K, Tamiya E 2008 Anal. Chim. Acta 614 182
[9] [10] Bai Y, Yang H, Yang W W, Y C, Sun C Q 2007 Sensor Actuat. B 124 179
[11] [12] Yonzon C R, Stuart D A, Zhang X Y, McFarland A D, Haynes C L, Van Duyne R P 2005 Talanta 67 438
[13] [14] [15] Sanci R, Volkan M 2009 Sensor Actuat. B 139 150
[16] Zhu X, Yang H F, Wang N, Zhang R, Song W, Sun Y P, Duan G P, Ding W, Zhang Z G 2010 J. Colloid Interf. Sci. 342 571
[17] [18] DeRose G A, Zhu L, Poon J K S, Yariv A, Scherer A 2008 Microelectron. Eng. 85 758
[19] [20] [21] Barbillon G, Bijeon J L, Plain J, Lamy de la Chapelle M, Adam P M, Royer P 2007 Surf. Sci. 601 5057
[22] [23] Stodolka J, Nau D, Frommberger M, Zanke C, Giessen H, Quandt E 2005 Microelectron. Eng. 78 442
[24] Sun P, Xu L, Zhao W M, Li W, Xu J, Ma Z Y, Wu L C, Huang X F, Chen K J 2008 Acta Phys. Sin. 57 1951 (in Chinese) [孙 萍、徐 岭、赵伟明、李 卫、徐 骏、马忠元、吴良才、黄信凡、陈坤基 2008 57 1951]
[25] [26] [27] Wang K, Yang G, Long H, Li Y H, Dai N L, Lu P X 2008 Acta Phys. Sin. 57 3862 ( in Chinese) [王 凯、杨 光、龙 华、李玉华、戴能利、陆培祥 2008 57 3862 ]
[28] Canpean V, Astilean S, Petrisor T Jr, Gabor M, Ciascai I 2009 Mater. Lett. 63 1834
[29] [30] [31] Li W, Zhao W M, Sun P 2009 Physica E 41 1600
[32] [33] Zhu X F, Wang Z G 2006 Int. J. Nanotechnol. 3 492
[34] [35] Zhu X F 2003 J. Phys.: Condens. Matter 15 253
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