微／纳米条形码自动电化学合成系统的研制

Development of Automatic Electrochemical Synthesis System for Micro/nanobarcodes

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摘要通过将计算机与电化学相结合，一设计实现了脉冲电沉积、顺序电沉积及任意组合的自动电化学合成系统。通过该系统，可将输入计算机的任意数字编码信息直接转化为实际的编码颗粒，其结构完整清晰，易于解码。目前已获得多种具有特定形貌及组成的纳米条形码。该方法不仅为高效可控制备冽纳米条形码提供了一种新思路，而且在复杂结构的微／纳米材料和智能材料等的设计制备中具有重要的应用前景。 The pulse-electrodeposition, subsequential-electrodeposition modes and automated electrochemical synthesis system were designed and realized by the combination of computer and electrochemical. Any digitally encoded information entered into computer can be directly converted into the actual encoding particles, which have some advantages, such as complete and clear properties. The research results not only provide a new method to fabricate micro/nano barcodes with High efficiency and controllability, and exhibit good application prospects for the design and preparations of micro/nano materials and intelligent materials.

作者张伟明陈庆庄金霞

机构地区温州大学化学与材料工程学院

出处《纳米科技》 2012年第5期9-13,共5页

基金国家自然科学青年基金项目（21003097）浙江省自然科学基金项目（Y4100515）

关键词条形码微纳米颗粒脉冲电沉积顺序电沉积自动合成系统 barcode micro/nano-particles pulse-electrodeposition subsequential-electrodeposition automatic synthesis system

分类号 O6-39 [理学—化学]

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1Finkel, N.H., X.H. Lou, C.Y. Wang, and L. He, Barcod-ing the microworld[J]. Anal. Chem., 2004, 76(19): 352A-359A.
2Braeckmans, K.,S.C. De Smedt, C. Roelant, M. Leblans, R. Pauwels, et al.,Encoding microcarriers byspatial selective photobleaching[J]. Nat. Mater” 2003, 2:169-173.
3Qin, L” M.J. Banholzer, J.E. Millstone, and C.A. Mirkin,Nanodisk CodesfJ]. Nano Lett, 2007, 7(12): 3849-3853.
4Pregibon, D.C., M. Toner, and P.S. Doyle, Multifunc-tional encoded particles for high -throughputbiomolecule analysisfj]. Science, 2007, 315(5817): 1393-1396.
5Zhang, W.-M., J.-S. Hu, H.-T. Ding, L.-J. Wan, andW. -G. Song, Programmed Fabrication of BimetallicNanobarcodes for Miniature Multiplexing Bioanalysis[J]. Anal. Chem., 2009, 81(7): 2815-2818.
6Lee, J.H., J.H. Wu, H.L. Liu, J.U. Cho, M.K. Cho, etal., Iron-gold barcode nanowires[J]. Angew. Chem. Int.Ed., 2007, 46(20): 3663-3667.
7Choi, J.R., S.J. Oh, H. Ju, and J. Cheon, Massive fabri-cation of free -standing one -dimensional Co/Pt nanos -tructures and modulation of ferromagnetism via a pro-grammable barcode layer effect[J]. Nano Lett, 2005,5(11):2179-2183.
8Wang, W.,X. Lu, T. Zhang, G. Zhang, W. Jiang, et al.,BijTe/Te Multiple Heterostructure Nanowire ArraysFormed by Confined PrecipitationfJ]. J. Am. Chem. Soc.,2007, 129(21): 6702-6703.
9Algra, R.E., M.A. Verheijen, M.T. Borgstrom, L. -F.Feiner, G. Immink,et al., Twinning superlattices in in-dium phosphide nanowires[J]. Nature, 2008,456: 369-372.
10Allen J. Bard and Larry R. Faulkner, Electrochemicalmethods fundamentals and applications[M]. 2nd Edition,John Wiley & Sons, Inc, 2001,Chapter 15.

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微／纳米条形码自动电化学合成系统的研制

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