清大生技所譚博士團隊開發一種可以產生金屬銀奈米線的新製程T71,.對於此銀線的性質以及應用面一直是實驗室致力追求的. 對此奈米銀線作導電性的量測,可以確定為一條符合歐姆定律的導線且數據再現性很高.論文中我們藉由HPLC分離M22,分離出的PEAK.分別加入CH1.結果發現能生成線的PEAK分布在6.604 0.04及7.706 0.075.且產生的銀線較直接用M22產生的乾淨.提供了我們一種得到品質較佳銀線的方法,對於研究與生產都能提供更好的樣品.應用方面我們把銀線以及銅線作結合,藉由兩種不同直徑的金屬線期望能發展出微小探針
感測器.

Dr. Tan’s library develop a new method which can produce silver nanowire , Our

research focus on the silver property and application. Measuring the silver nanowire’s conductance.We can prove the physical characters of this wire obey to the ohmic behavior. In the thesis we use HPLC to separate this M22 and collect 10 peaks. With adding CH1 , we find the peaks which can produce silver nanowire distributed in 6.604 0.04 and 7.706 0.075. The silver nanowires are cleaner than without HPLC treat. It provides us a method to get clean silver nanowires for research and product. In Application, we link the silver nanowire with micro copper wire.

1.DNA-templated assembly and electrode attachment of a conducting silver wire. Nature 391,775-778,1998.
2.Reches, M. & Gazit, E. Casting nanowires within discrete self-assembled peptide nanotube. Science 300,625-627,2003.
3.Protein and Peptide Purification Technique selection guide. Waters.
4.Chou, F. I. & S. T. Tan. Salt-mediated multicell formation in Deinococcus radiodurans. J. Bacteriol. 173,3184-3190,1991
5.Chou, F. I. & S. T. Tan. Manganese induces cell division and increases in superoxide dismutase and catalase activities in an aging culture. J. Bacteriol. 172,3184-3190,1990.
6.Lei Zhang, Xiangqing He, Zhiqing Yu Circuit Design and Verification for Ultra Low Current Sensing Amplifier Aimed at Bio-Sensor Applications0-7803-9210-8/05/$20.00 ©2005

7. J.-P. CLEUZIOU, W. WERNSDORFER*, V. BOUCHIAT, T. ONDARC¸ UHUAND M. MONTHIOUX Carbon nanotube superconducting quantum interference device. 4 October 2006; doi:10.1038/nnano.2006.54

8. Nicholas A. Melosh, Akram Boukai, Frederic Diana, Brian Gerardot, Antonio

Bandolato, Pierre M. Petroff, James R. Heath. Ultrahigh-Density Nanowire

Lattices and Circuits. Science 300,112-115,2003.
9. Mark S. Gudiksen, Lincoln J. Lauhon, Jianfang Wang, David C. Smith, and
Charles M. Lieber, Growth of nanowire superlattice structures for nanoscale
photonics and electronics, Nature 396 (1998) 444-446.
10. M..J. Daly, E.K. Gaidamakova V. Y. Matrosova,1A. Vasilenko,1M. Zhai,1A.Venkateswaran, M. Hess, M. V. Omelchenko, H. M. Kostandarithes, K. S. Makarova, L. P. Wackett, J.K. Fredrickson. Accumulation of Mn (II) in Deinococcus radiodurans facilitates Gamma-Radiation resistance. Science 06,1025-1208,2004.
11. Tools and techniques for the isolation,analysis and characterization of biotherapeutics. Waters.2003.

12. Fernando Patolsky*†, Gengfeng Zheng*†, Oliver Hayden*, Melike

Lakadamyali‡, Xiaowei Zhuang*‡§,and Charles M.ieber*§Electrical detection

of single viruses.

13. David S. Hopkins, David Pekker, Paul M. Goldbart,Alexey Bezryadin*

Quantum Interference Device Made by DNA Templating of

Superconducting Nanowires

14. Yi Cui,1* Qingqiao Wei,1* Hongkun Park,1 Charles M. Lieber1,2†

Nanowire Nanosensors for Highly Sensitive and Selective Detection of

Biological and Chemical Species.

15. Applications of Modern Ferroelectrics. J. F. Scott

16. Yu Huang,1* Xiangfeng Duan,1* Qingqiao Wei,1 Charles M.Lieber1,2†

Directed Assembly of One-Dimensional Nanostructures into Functional

Networks .

17.清大生技所譚世特博士研究成果.

18.Haleem J. Issaq Thomas P. Conrads. George M. Janini. Timothy D. Veenstra.

Methods for fractionation, separation and profiling of proteins and peptides.

Electrophoresis 23,3048-3061,2002

19.Pang, Y. T., Meng, G. W., Fang, Q. & Zhang, L. D. Silver nanowire array infrared

polarizers. Nanotechnology 14,20-24,2003.

20.Zhong Lin Wang and Jinhui Song Piezoelectric Nanogenerators Based on Zinc

Oxide Nanowire Arrays

21.Piotr E. Marszalek*, William J. Greenleaf, Hongbin Li, Andres F. Oberhauser, and

Julio M. Fernandez Atomic force microscopy captures quantized plastic

deformation in gold nanowires

22. Hao Yan,1* Sung Ha Park,1,2 Gleb Finkelstein,2 John H. Reif,1 Thomas H.

LaBean1*DNA-Templated Self-Assembly of Protein Arrays and Highly

Conductive Nanowires

23.Wayne U. Wang*†, Chuo Chen*, Keng-hui Lin*, Ying Fang*, and Charles M.

Lieber*‡§Label-free detection of small-molecule–protein interactions by

using nanowire nanosensors

24. Itamar Willner Biomaterials for Sensors, Fuel Cells, and Circuitry.

25. 宜特科技股份有限公司(半導體參數分析儀介紹)