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田昭武

2011年05月24日

中科院院士
办公室:卢嘉锡楼404 
电话:2185349 
Email:zwtian@xmu.edu.cn
通讯地址:厦门大学化学化工学院
个人简历
  •  国际电化学学会副主席(1997-1999)
  • 第三世界科学院院士(1996)
  • 英国威尔士大学名誉博士(1984)
  • 中科院院士(1980)、教授、博士生导师
  • 厦门大学学士(1949)

 

研究兴趣

 电化学方法、纳米电化学、电化学分析技术、光谱电化学、光电化学、生物芯片。

 

主要代表论文
  1. Z.W. Tian, Polarization Theory of Porous Electrode --- Characteristic Currents for Transport inside Porous Electrode, Scientia Sinica, 24, 1103 (1981).
  2. Z.W. Tian, Lin Zugeng and You Jinkua, Polarization Theory of porous Electrode--- Uneven Liquid Film Model for Gas Diffusdion Porous Electrode, Scientia Sinica, 24, 1391 (1981).
  3. Z.W. Tian, Electrode Processes -- Kinetics and Research Methods, Advances in Science of China, Chemistry, 1, 107 (1984).
  4. Z.W. Tian, R.Z. Hu, H.S. Lin and W.L. Hu, Effect of Suppression Efficiency on Sensitivity in Ion Chromatography, Journal of Chromatography, 439, 151-157 (1988).
  5. Z.W. Tian, R.Z. Hu, H.S. Lin and J.T. Wu, High-Performance Electrochemical Suppressor for Ion Chromatography, Journal of Chromatography, 439, 159-163 (1988).
  6. Z.W. Tian, Z.H. Lin and B.W. Mao, Advanced Electrochemistry in China, Denki Kagaku, 59(8), 639-648 (1991).
  7. Z.W. Tian, X.D. Zhuo, J.Q. Mu, J.H. Ye, Z.D. Fen, B.W. Mao, C.L. Bai and C.D. Dai, A New Electrochemical Scanning Tunneling Microscope, Ultramicroscopy, 42(44), 460-463 (1992).
  8. Z.W. Tian, Z.D. Fen, Z.Q. Tian, X.D. Zhuo, C.Z. Li, H.S. Lin, B. Ren, Z.X. Xie and W.L. Hu, Confined Etchant Layer Technique for Two-Dimensional Lithography at High Resolution Using Electrochemical Scanning Tunnelling Microscopy, Faraday Discussion, 94, 37-44 (1992).
  9. Z.W. Tian, Z.H. Lin, Z.Q. Tian, J. Luo, H.S. Lin and W.L. Hu Confined Etchant Layer Technique for Photo Electrochemical Nanolithography, in Photochemical and Photoelectrochemical Conversion and Storage of Solar Energy, Edited by Z.W. Tian and Y. Cao, International Academic Publisher, Beijing, 249-255, (1992).
  10. Z.W. Tian, H.S. Lin, Y.L. Zhou, X.Z.Qiao, Y.L. Zhang, L.M. Jiang and W.L. Hu, Alternative Approaches to Designing Microfludic Scheme in Lab 0n Chip, Pacific rim Wooorkshop on Transgucers and Micro/Namo Technologies, 661-664, (2002).
  11. J.J. Sun, H.G. Huang, Z.Q. Tian, L. Xie, J. Luo, X.Y. Ye, Z.Y. Zhou, S.H. Xie, Z.W. Tian, Three-Dimensional Micromachining for Microsystems by Confined Etchant Layer Technique, Electrochimic Acta, 47, 95-101, (2001).
  12. L.M. Jiang, Z.F. Liu, J.J. Sun, Z.Q. Tian, X.Y. Ye, Z.Y. Zhou, P.K. Liu, L.N. Sun, Z.W. Tian, A Novel Micro-and Nano-Fabrication Techniques: Advantages and Advance, Pacific rim Wooorkshop on Transgucers and Micro/NamoTechnologies, 697-700, (2002).
  13. Z.W. Tian, H.S. Lin, J.J. Sun, Y.L. Zhou, Y.B. Zu, Z.Q. Tian, J. Luo, Z.H. Lin, Z.X. Xie, W.L. Hu, Y.G. Hu, W.D. Su, Advanced for technology of microsystem and new application of electrochemistry, Electrochemistry, Vol.7, No.1, 1-9, (2001).
  14. C.J. Zhong, Z.Q. Tian, and Z.W. Tian, In Situ Electron Spin Resonance and Raman Spectroscopic Studies of the Electrochemical Process Conducting Polypyrrole Films, Journal of Physical Chemistry, 94(5), 2171-2175 (1990).
  15. C.J. Zhong, Z.Q. Tian and Z.W. Tian, in-Situ ESR and Raman Spectroscopic Studies on Electropolymerization of Pyprole, Science in China (Series B), 6, 656-662 (1990).
  16. Z.H. Lin, H.Y. Chen and Z.W. Tian, Semiconducting Properties of In2O3 Anodic Film, Chinese Chemical Letters, 1(3), 275-276 (1990).
  17. J. Luo, Z.H. Lin and Z.W. Tian, A Combined Measurement System for UV/V In Situ Spectroelectrochemical Study, Chinese Chemical Letters, 2(4), 309 (1991).
  18. Y.B. Zu, L. Xie, B.W. Mao and Z.W. Tian, Studies on Silicon Etching Using the Confined Etchant Layer Technique, Electrochimica Acta., Vol.43, 12-13, 1683-1990, (1998).
  19. W.F. Li, S.G. Sun, Z.Q. Tian and Z.W. Tian, A Microscopic Modelling and Quantum Chemicaltreatment of Adsorption at Electrochemical Interfaces, Chinese Science Bulletin, 39(1), 27-31 (1994).
  20. Z.Q. Tian, W.H. Li, Z.H. Qian, W.F. Lin and Z.W. Tian, Molecular-Level Investigations of Different Types of Coadsorption at Ag Electrodes by Raman Spectroscopy, Russian Journal of Electrochemistry, 31(9), 935-940 (1995).