1. Ion exchange membranes: state of their development and perspective. Xu T W. J Membrane Sci., 2005, 263/1-2, 1-29.    (Full Paper in PDF)

  2. Application of Electrodialysis to the Production of Organic Acids:State-of-the-art and recent developments. Chuanhui Huang, Xu T W , Yaping Zhang, Yanhong Xue and Guangwen Chen. J. Membrane Sci., 2007,288:1-12.   (Full Paper in PDF)

  3. Polymers with Cavities Tuned for Fast Selective Transport of Small Molecules and Ions. Ho Bum Park, Chul Ho Jung, Young Moo Lee,et. al. Science. Vol. 318. no. 5848, pp. 254 - 258.    (Full Paper in PDF)

  4. Hybrid Antioxidants. E. B. Burlakova, E. M. Molochkina, G. A. Nikiforov. Oxidation Communications 31, No 4, 739–757 (2008).   (Full Paper in PDF)

  5. Ion-exchange membranes: preparative methods for electrodialysis and fuel cell applications. M.Y. Kariduraganavar, R.K. Nagarale, A.A. Kittur, S.S. Kulkarni. Desalination 197 (2006) 225–246.   (Full Paper in PDF)

  6. 我国膜法回收工业酸性废液的研究进展. 徐铜文.  (Full Paper in PDF)

  7. Implementing membrane technology in the process industry: problems and opportunities. GW Meindersma, M Kuczynski. Journal of Membrane Science. Volume 113, Issue 2, Pages 285-292.   (Full Paper in PDF)

  8. Ion exchange membranes and separation processes with chemical reactions. T. SATA. JOURNAL OF APPLIED ELECTROCHEMISTRY 21 (1991) 283-294. (Full Paper in PDF)

  9. Review of Electro-assisted methods for water purification. J. Grimm, D. Bessarabov and R. Sanderson. Desalination 115 (1998) 285-294.   (Full Paper in PDF)

  10. Seawater desalination using renewable energy sources. Soteris A. Kalogirou. Progress in Energy and Combustion Science 31 (2005) 242–281. (Full Paper in PDF)

  11. Electrodialysis-Based Separation Technologies: A Critical Review. Tongwen Xu, Chuanhui Huang. AIChE Journal. 2008 Vol. 54, No. 12. (Full Paper in PDF)

  12. Poly(2,6-dimethyl-1,4-phenylene oxide) (PPO)—A versatile starting polymer for proton conductive membranes (PCMs). Tongwen Xu, DanWu, LiangWu. Progress in Polymer Science 33 (2008) 894–915. (Full Paper in PDF)

  13. 杭州电驱动膜会议报告. 徐铜文. (ppt)

  14. 离子交换膜的重大国家需求和创新研究. 徐铜文. 膜科学与技术. Vol. 28,No. 5. (Full Paper in PDF)

  15. Integrated fuel processors for fuel cell application: A review. Aidu Qi, Brant Peppley, Kunal Karan. Fuel Processing Technology 88 (2007) 3–22. (Full Paper in PDF)

  16. Challenges and future developments in proton exchange membrane fuel cells. Kamaruzzaman Sopian, Wan Ramli Wan Daud. Renewable Energy 31 (2006) 719–727. (Full Paper in PDF)

  17. Electrochemical Applications of Silica-Based Organic-Inorganic Hybrid Materials. Alain Walcarius. Chem. Mater. 2001, 13, 3351-3372. (Full Paper in PDF)

  18. A novel sulfonated dendritic polymer as the acidic component in proton conducting membranes. P. Gode, A. Hult, P. Jannasch, M. Johansson, L.E. Karlsson, G. Lindbergh, E. Malmstr?m, D. Sandquist. Solid State Ionics 177 (2006) 787–794. (Full Paper in PDF)

  19. Advanced functional polymer membranes. Mathias Ulbricht. Polymer 47 (2006) 2217–2262. (Full Paper in PDF)

  20. Applications of proton exchange membrane fuel cell systems. Jung-Ho Wee. Renewable and Sustainable Energy Reviews. 11 (2007) 1720–1738. (Full Paper in PDF)

  21. A review of polymer electrolyte membranes for direct methanol fuel cells. Vladimir Neburchilov, Jonathan Martin, Haijiang Wang, Jiujun Zhang. Journal of Power Sources 169 (2007) 221–238. (Full Paper in PDF)

  22. Computational modelling of polymer electrolyte membrane (PEM) fuel cells: Challenges and opportunities. N. Djilali. Energy 32 (2007) 269–280. (Full Paper in PDF)

  23. Ion Exchange Resins: Catalyst Recovery and Recycle. Pierluigi Barbaro, Francesca Liguori. Chem. Rev., 2009, 109 (2), 515-529. (Full Paper in PDF)

  24. Characterization of ion-exchange membrane materials: Properties vs structure. N.P. Berezina, N.A. Kononenko, O.A. Dyomina, N.P. Gnusin. Advances in Colloid and Interface Science. Vol 139, Iss 1-2,P 3-28 (Full Paper in PDF)