1 Wu J F, Yuan X Z, Martin J J, et al. Proton exchange membrane fuel cell degradation under close to open-circuit conditions. Part I: In situ diagnosis. J Power Sources, 2010, 195: 1171-1176??
[2]
2 Cheng C, Thomas F. The effect of humidity on the degradation of membrane. Polym Degrad Stab, 2009, 94: 1436-1447??
[3]
4 Jeremy M, Robert D. Model of carbon corrosion in PEM fuel cells. J Electrochem Soc, 2006, 153: 1432-1442??
[4]
5 Timothy P, Robert D. Damage to the cathode catalyst of a PEM fuel cell caused by localized fuel starvation. Electrochem Solid-State Lett,2006, 9: 183-185??
[5]
6 Akira T, Tomoki A, Kazuaki Y. Analysis of degradation in PEMFC caused by cell reversal during air starvation. Int J Hydrogen Energy, 2008,33: 2323-2329??
[6]
7 Eiji E, Terazono S, Hardiyanto W, et al. Degradation study of MEA for PEMFCs under low humidity conditions. Electrochem Solid-State Lett,2004, 7: 209-211??
[7]
8 Xie J, David W, David W, et al. Durability of PEMFCs at high humidity conditions. J Electrochem Soc, 2005, 152: 104-113
[8]
9 Shen Q, Hou M, Liang D, et al. Study on the processes of start-up and shutdown in proton exchange membrane fuel cells. J Power Sources,2009, 189: 1114-1119??
[9]
11 Guvelioglu G H, Stenger H G. Computational fluid dynamics modeling of polymer electrolyte membrane fuel cells. J Power Sources, 2005,147: 95-106??
[10]
12 Steiner N, Mocotéguy P, Candusso D, et al. A review on polymer electrolyte membrane fuel cell catalyst degradation and starvation issues: Causes, consequences and diagnostic for mitigation. J Power Sources, 2009, 194: 130-145??
[11]
13 Wang Z B, Zuo P J, Chu Y Y, et al. Durability studies on performance degradation of Pt/C catalysts of proton exchange membrane fuel cell. Int J Hydrogen Energy, 2009, 34: 4387-4394??
[12]
14 Wu J F, Yuan X Z, Martin J, et al. A review of PEM fuel cell durability: Degradation mechanisms and mitigation strategies. J Power Sources,2008, 184: 104-119??
[13]
15 Tang H L, Shen P K, Jiang S P, et al. A degradation study of Nafion proton exchange membrane of PEM fuel cells. J Power Sources, 2007,170: 85-92??
[14]
16 Mark K D, Alison K S, George D V, et al. High voltage stability of nanostructured thin film catalysts for PEM fuel cells. J Power Sources,2006, 161: 1002-1011??
[15]
20 Yan W M, Chu H S, Lu M X, et al. Degradation of proton exchange membrane fuel cells due to CO and CO2 poisoning. J Power Sources,2009, 188: 141-147??
[16]
21 Attila H, Andrew H, Liu H. In situ measurements of water transfer due to different mechanisms in a proton exchange membrane fuel cell. J Power Sources, 2008, 183: 240-246??
[17]
22 Zhang S S, Yuan X Z, Jason N, et al. Effects of open-circuit operation on membrane and catalyst layer degradation in proton exchange membrane fuel cells. J Power Sources, 2010, 195: 1142-1148??
[18]
25 Pei P C, Chang Q F, Tang T. A quick evaluating method for automotive fuel cell lifetime. Int J Hydrogen Energy, 2008, 33: 3829-3836??
[19]
30 Aoki M, Uchida H, Watanabe M. Novel evaluation method for degradation rate of polymer electrolytes in fuel cells. Electrochem Commun,2005, 7: 1434-1438??
[20]
36 Sugawara T, Kawashima N, Murakami T N. Kinetic study of Nafion degradation by Fenton reaction. J Power Sources, 2011, 196: 2615-2620??
[21]
39 Ramaswamy N, Hakim N, Mukerjee S. Degradation mechanism study of perfluorinated proton exchange membrane under fuel cell operating conditions. Electrochim Acta, 2008, 53: 3279-3295??
[22]
40 Fang X, Shen P K, Song S Q, et al. Degradation of perfluorinated sulfonic acid films: An in-situ infrared spectro-electro-chemical study. Polym Degrad Stab, 2009, 94: 1707-1713??
[23]
41 Aoki M, Uchida H, Watanabe M. Decomposition mechanism of perfluorosulfonic acid electrolyte in polymer electrolyte fuel cells. Electrochem Commun, 2006, 8: 1509-1513??
[24]
43 Ghassemzadeh L, Marrony M, Barrera R, et al. Chemical degradation of proton conducting perflurosulfonic acid ionomer membranes studied by solid-state nuclear magnetic resonance spectroscopy. J Power Sources, 2009, 186: 334-338??
[25]
45 Tarascon J M, Armand M. Issues and challenges facing rechargeable lithium batteries. Nature, 2001, 414: 359-367??
50 Qin Y, Wang X D, Wang Z L. Microfiber-nanowire hybrid structure for energy scavenging. Nature, 2008, 451: 809-813??
[28]
51 Wang X D, Song J H, Liu J, et al. Direct current nanogenerator driven by ultrasonic wave. Science, 2007, 316: 102-105??
[29]
52 Li H, Wang Z X, Chen L Q, et al. Research on advanced materials for Li-ion batteries. Adv Mater, 2009, 21: 4593-4607??
[30]
54 Akiyama Y, Sodaye H, Shibahara Y J, et al. Study on degradation process of polymer electrolyte by solution analysis. J Power Sources, 2010,195: 5915-5921??
[31]
56 Mattsson B, Ericson H, Torell L M, et al. Degradation of a fuel cell membrane, as revealed by micro-Raman spectroscopy. Electrochim Acta,2000, 45: 1405-1408??
[32]
57 Ji X L, Lee K T, Nazar L F. A highly ordered nanostructured carbon-sulphur cathode for lithium-sulphur batteries. Nat Mater, 2009, 8:500-506??
[33]
58 Bas C, Albérola N D, Flandin L. Effects of contaminant on thermal properties in perfluorinated sulfonic acid membranes. J Membr Sci, 2010,363: 67-71??
[34]
59 Meyer G, Gebel G, Gonon L, et al. Degradation of sulfonated polyimide membranes in fuel cell conditions. J Power Sources, 2006, 157:293-301??
[35]
60 李永, 宋健. 车辆电子电磁器件力学. 北京: 人民交通出版社, 2010. 119-131
[36]
62 Xu S, Qin Y, Xu C, et al. Self-powered nanowire devices. Nat Nanotechnol, 2010, 5: 366-373??
64 Xiao S H, Zhang H M, Bi C, et al. Degradation location study of proton exchange membrane at open circuit operation. J Power Sources, 2010,195: 5305-5311??
[39]
3 杨捷, 李永, 宋健. 汽车技术经济学. 北京: 经济管理出版社. 2008. 14-44
[40]
10 Wolfgang S, Ardalan V. A review of the main parameters influencing long-term performance and durability of PEM fuel cells. J Power Sources, 2008, 180: 1-14??
[41]
17 Wu B, Sun Q H, Deng Y L, et al. The effect of humidity and oxygen partial pressure on degradation of Pt/C catalyst in PEM fuel cell. Electrochim Acta, 2009, 54: 1826-1833??
[42]
18 Mei C, Martin S R, Belabbes M, et al. Investigation of thermal and electrochemical degradation of fuel cell catalysts. J Power Sources, 2006,160: 977-986??
[43]
19 Karl J M, Josef C M, Sean J A, et al. Fuel cell catalyst degradation on the nanoscale. Electrochem Commun, 2008, 10: 1144-1147??
[44]
23 Boaventura M, Mendes A. Activation procedures characterization of MEA based on phosphoric acid doped PBI membranes. Int J Hydrogen Energy, 2010, 35: 11649-11660??
[45]
24 Qi Z G, Buelte S. Effect of open circuit voltage on performance and degradation of high temperature PBI-H3PO4 fuel cells. J Power Sources,2006, 161: 1126-1132??
[46]
26 Iwai Y, Hiroki A, Tamada M, et al. Radiation deterioration of ion-exchange Nafion N117CS membranes. Radiat Phys Chem, 2010, 79: 46-51??
[47]
27 Jao T C, Ke S T, Chi P H, et al. Degradation on a PTFE/Nafion membrane electrode assembly with accelerating degradation technique. Int J Hydrogen Energy, 2010, 35: 6941-6949??
[48]
28 Morita S, Kitagawa K. Temperature-dependent structure changes in Nafion ionomer studied by PCMW2D IR correlation spectroscopy. J Mol Struct, 2010, 974: 56-59??
[49]
29 Ramkumar J, Mukherjee T. Effect of aging on the water sorption and ion exchange studies on Nafion and Dowex resins: Transition metal ions-proton exchange systems. Sep Purif Technol, 2007, 54: 61-70??
[50]
31 Lawrence J, Yamaguchi T. The degradation mechanism of sulfonated poly(arylene ether sulfone)s in an oxidative environment. J Membr Sci,2008, 325: 633-640??
[51]
32 Hongsirikarn K, Mo X H, Liu Z H, et al. Prediction of the effective conductivity of Nafion in the catalyst layer of a proton exchange membrane fuel cell. J Power Sources, 2010, 195: 5493-5500??
[52]
33 Kitiya H, James G, Goodwin J, et al. Effect of cations (Na+, Ca2+, Fe3+) on the conductivity of a Nafion membrane. J Power Sources, 2010,195: 7213-7220
[53]
34 Wang H L, John A T. The influence of metal ions on the conductivity of Nafion 112 in polymer electrolyte membrane fuel cell. J Power Sources, 2008, 183: 576-580??
37 Adriano C F, Edson A T. A performance and degradation study of Nafion 212 membrane for proton exchange membrane fuel cells. J Power Sources, 2009, 193: 547-554??
[56]
38 Ghassemzadeh L, Kreuer K D, Müller J M. Evaluating chemical degradation of proton conducting perfluorosulfonic acid ionomers in a Fenton test by solid-state 19F NMR spectroscopy. J Power Sources, 2011, 196: 2490-2497??
[57]
42 Kinumoto T, Inaba M, Nakayama Y, et al. Durability of perfluorinated ionomer membrane against hydrogen peroxide. J Power Sources, 2006,158: 1222-1228??
[58]
44 Yuan X Z, Zhang S S, Wang H J, et al. Degradation of a polymer exchange membrane fuel cell stack with Nafion membranes of different thicknesses: Part I. In situ diagnosis. J Power Sources, 2010, 195: 7594-7599??
[59]
47 Armand M, Tarascon J M. Building better batteries. Nature, 2008, 451: 652-657??
[60]
48 Bruce P G, Scrosati B, Tarascon J M. Nanomaterials for rechargeable lithium batteries. Angew Chem Int Ed, 2008, 47: 2930-2946??
[61]
49 Wang Z L, Song J H. Piezoelectric nanogenerators based on zinc oxide nanowire arrays. Science, 2006, 312: 242-246??
[62]
53 Rui X H, Ding N, Liu J, et al. Analysis of the chemical diffusion coefficient of lithium ions in Li3V2(PO4)3 cathode material. Electrochim Acta,2010, 55: 2384-2390??
[63]
55 Akiyama Y, Sodaye H, Shibahara Y J, et al. Study on gamma-ray-induced degradation of polymer electrolyte by pH titration and solution analysis. Polym Degrad Stab, 2010, 95: 1-5??
[64]
61 Yang R S, Qin Y, Dai L M, et al. Flexible charge-pump for power generation using laterally packaged piezoelectric-wires. Nat Nanotechnol,2009, 4: 34-39??
[65]
65 Xiao S H, Zhang H M, Bi C, et al. Membrane degradation mitigation using zirconia as a hydrogen peroxide decomposition catalyst. J Power Sources, 2010, 195: 8000-8005??
67 Yuan L, Yuan H P, Qiu X P, et al. Improvement of cycle property of sulfur-coated multi-walled carbon nanotubes composite cathode for lithium/ sulfur batteries. J Power Sources, 2009, 189: 1141-1146??
