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ÕâÀïÃæµÄ×ÊÁÏÏÂÔز»ÏÂÀ´°¡ ÇëÄÄλ´óÏÉÏÂÔØÁ赀 ·¢µ½ÎÒµÄÓÊÏä ²»Ê¤¸Ð¼¤ ÎÒµÄÓÊÏä yangyangwlhx@163.com [¾µäÊé¼®] ȼÁϵç³Ø´ß»¯¼Á23ƪÑо¿×ÛÊö´ò°üÍøÅÌÏÂÔØ (1) Steele, B. C. H. and A. Heinzel (2001). "Materials for fuel-cell technologies." Nature 414: 345-352; (2) Arico, A. S., P. Bruce, et al. (2005). "Nanostructured materials for advanced energy conversion and storage devices." Nature Materials 4: 366-377. ; (3) Markovic, N. M. and P. N. Ross (2000). "New electrocatalysts for fuel cells from model surfaces to commercial catalysts." CATTECH 4(2): 110-126. (4)homas, S. C., X. Ren, et al. (2002). "Direct methanol fuel cells: progress in cell performance and cathode research." Electrochimica Acta 47(22-23): 3741-3748. (5) Brandon, N. P., S. Skinner, et al. (2003). "Recent advences in materials for fuel cells." Annu. Rev. Mater. Res. 33: 183-213. (6) Wang, B. (2005). "Recent development of non-platinum catalysts for oxygen reduction reaction." J. Power Sources 152: 1-15. (7) Zhang, L., J. Zhang, et al. (2006). "Progress in preparation of non-noble electrocatalysts for PEM fuel cell reactions." J. Power Sources 156(2): 171-182. (£¸) Antolini, E. (2007). "Catalysts for direct ethanol fuel cells." Journal of Power Sources 170(1): 1-12 (£¹)Bezerra, C. W. B., L. Zhang, et al. (2007). "A review of heat-treatment effects on activity and stability of PEM fuel cell catalysts for oxygen reduction reaction." J. Power Sources 173(2): 891-908. (£±£°)Borup, R., J. Meyers, et al. (2007). "Scientific Aspects of Polymer Electrolyte Fuel Cell Durability and Degradation." Chem. Rev. 107(10): 3904-3951. (11)Kiros, Y. (2007). "Metal Porphyrins for Oxygen Reduction in PEMFC." Int. J. Electrochem. Sci. 2: 285-300 (12)Lee, J.-W. and B. N. Popov (2007). "Ruthenium-based electrocatalysts for oxygen reduction reaction-a review." J. Solid State Electrochem. 11: 1355-1364. (13)Spendelow, J. S. and A. Wieckowski (2007). "Electrocatalysis of oxygen reduction and small alcohol oxidation in alkaline media." Phys. Chem. Chem. Phys. 9: 2654 - 2675. (14)Yu, X. and S. Ye (2007). "Recent advances in activity and durability enhancement of Pt/C catalytic cathode in PEMFC: Part I. Physico-chemical and electronic interaction between Pt and carbon support, and activity enhancement of Pt/C catalyst." Journal of Power Sources 172(1): 133-144. (15) Alonso-Vante, N. (2008). "Tailoring of metal cluster-like materials for the molecular oxygen reduction reaction." Pure Appl. Chem. 80(10): 2103-2114. (16) Bezerra, C. W. B., L. Zhang, et al. (2008). "A review of Fe-N/C and Co-N/C catalysts for the oxygen reduction reaction." Electrochimica Acta 53(15): 4937-4951. (17)Cahen, D. and I. Lubomirsky (2008). "Energy, the global challenge, and materials." Materials Today 11(12): 16-20. (18)Feng, Y. J. and N. Alonso-Vante (2008). "Non-precious metal catalysts for the molecular oxygen reduction reaction." Phys. Status Solidi. (b) 245(9): 1792-1806. (19)Sav¨¦ant, J.-M. (2008). "Molecular Catalysis of Electrochemical Reactions. Mechanistic Aspects." Chem. Rev. 108: 2348-2378. (20)Sealy, C. (2008). "The problem with platinum." Materials Today 11(12): 65-68. (21)Kjeang, E., N. Djilali, et al. (2009). "Microfluidic fuel cells: A review." Journal of Power Sources 186(2): 353-369. (22) Palac¨ªn, M. R. (2009). "Recent advances in rechargeable battery materials: a chemists perspective." Chem. Soc. Rev. 38: 2565-2575. (23)Zhang, S., X.-Z. Yuan, et al. (2009). "A review of platinum-based catalyst layer degradation in PEM fuel cells." Journal of Power Sources In Press, Accepted Manuscript. http://www.rayfile.com/files/d50 ... -874c-0015c55db73d/,ÀïÃæÔÝȱ(22),ÆäËûµÄÈ«²¿¶¼ÔÚÀïÃæ. µÚ22ƪÎÄÏ×ÏÂÔصØÖ·£ºhttp://good.gd/380499.htm ËùÓдò°üÄÉÃ×ÅÌÏÂÔØ£ºhttp://d.namipan.com/d/00af324ab ... c95f137890931245d01 |
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