| 1 - 7 |
Treatment of low concentration hydrogen by electrochemical pump or proton exchange membrane fuel cell
Onda K, Araki T, Ichihara K, Nagahama M |
| 8 - 13 |
Influence of metal oxides on Pt catalysts for methanol electrooxidation using electrochemical impedance spectroscopy
Yuan HP, Guo DJ, Qiu XP, Zhu WT, Chen LQ |
| 14 - 23 |
Multi-pass serpentine flow-fields to enhance under-rib convection in polymer electrolyte membrane fuel cells: Design and geometrical characterization
Nam JH, Lee KJ, Sohn S, Kim CJ |
| 24 - 29 |
Chitosan/heteropolyacid composite membranes for direct methanol fuel cell
Cui ZM, Xing W, Liu CP, Liao JH, Zhang H |
| 30 - 37 |
Direct methanol fuel cell (DMFC) based on PVA/MMT composite polymer membranes
Yang CC, Lee YJ, Yang JM |
| 38 - 44 |
Nitrogen-modified carbon-based catalysts for oxygen reduction reaction in polymer electrolyte membrane fuel cells
Subramanian NP, Li XG, Nallathambi V, Kumaraguru SP, Colon-Mercado H, Wu G, Lee JW, Popov BN |
| 45 - 50 |
Water and phosphoric acid uptake of poly [2,5-benzimidazole] (ABPBI) membranes prepared by low and high temperature casting
Diaz LA, Abuin GC, Corti HR |
| 51 - 56 |
Synthesis and characterization of platinum nanoparticles on in situ grown carbon nanotubes based carbon paper for proton exchange membrane fuel cell cathode
Kamavaram V, Veedu V, Kannan AM |
| 57 - 63 |
Synthesis and properties of sulfonated poly(arylene ether phosphine oxide)s for proton exchange membranes
Ma XH, Zhang CJ, Xiao GY, Yan DY |
| 64 - 74 |
Tuning the performance of direct methanol fuel cell membranes by embedding multifunctional inorganic submicrospheres into polymer matrix
Wang JT, Zhang H, Jiang ZY, Yang XF, Mao LL |
| 75 - 81 |
Hydrogen electrocatalysts from microwave-synthesised nanoparticulate carbides
Rees EJ, Essaki K, Brady CDA, Burstein GT |
| 82 - 88 |
Dry gas operation of proton exchange membrane fuel cells with parallel channels: Non-porous versus porous plates
Litster S, Santiago JG |
| 89 - 95 |
Deactivation of Pt/VC proton exchange membrane fuel cell cathodes by SO2, H2S and COS
Gould BD, Baturina OA, Swider-Lyons KE |
| 96 - 105 |
Intermediate-temperature electrochemical performance of a polycrystalline PrBaCo2O5+delta cathode on samarium-doped ceria electrolyte
Chen DJ, Ran R, Zhang K, Wang J, Shao ZP |
| 106 - 113 |
Novel high temperature proton conducting fuel cells: Production of La0.995Sr0.005NbO4-delta electrolyte thin films and compatible cathode architectures
Fontaine ML, Larring Y, Haugsrud R, Norby T, Wiik K, Bredesen R |
| 114 - 117 |
Synthesis of nano-crystalline Sr2MgMoO6-delta anode material by a sol-gel thermolysis method
Kong LC, Liu BW, Zhao J, Gu YS, Zhang Y |
| 118 - 121 |
A miniature direct formic acid fuel cell battery
Kim HS, Morgan RD, Gurau B, Masel RI |
| 122 - 126 |
Measurement of water transport rates across the gas diffusion layer in a proton exchange membrane fuel cell, and the influence of polytetrafluoroethylene content and micro-porous layer
Dai W, Wang H, Yuan XZ, Martin J, Shen J, Pan M, Luo Z |
| 127 - 131 |
Preparation of new proton exchange membrane based on self-assembly of Poly(styrene-co-styrene sulfonic acid)-b-poly(methyl methacrylate)/Poly(vinylidene fluoride) blend
Choi WH, Jo WH |
| 132 - 140 |
Investigation of bio-inspired flow channel designs for bipolar plates in proton exchange membrane fuel cells
Kloess JR, Wang X, Liu JA, Shi ZY, Guessous L |
| 141 - 147 |
Degradation of proton exchange membrane fuel cells due to CO and CO2 poisoning
Yan WM, Chu HS, Lu MX, Weng FB, Jung GB, Lee CY |
| 148 - 155 |
Comparative study of perovskites as cathode contact materials between an La0.8Sr0.2FeO3 cathode and a Crofer22APU interconnect in solid oxide fuel cells
Montero X, Tietz F, Stover D, Cassir M, Villarreal I |
| 156 - 162 |
A high performance composite ionic conducting electrolyte for intermediate temperature fuel cell and evidence for ternary ionic conduction
Xia C, Li L, Tian Y, Liu QH, Zhao YC, Jia LJ, Li YD |
| 163 - 169 |
The critical pressure drop for the purge process in the anode of a fuel cell
Yu X, Ming PW, Ming H, Yi BL, Shao ZG |
| 170 - 176 |
A reduced 1D dynamic model of a planar direct internal reforming solid oxide fuel cell for system research
Kang YW, Li J, Cao GY, Tu HY, Li J, Yang J |
| 177 - 183 |
Modeling of cracking of the glass-based seals for solid oxide fuel cell
Zhang T, Zhu QS, Xie ZH |
| 184 - 191 |
Validity of two-phase polymer electrolyte membrane fuel cell models with respect to the gas diffusion layer
Ziegler C, Gerteisen D |
| 192 - 198 |
Optimisation of carbon nanofiber based electrodes for polymer electrolyte membrane fuel cells prepared by a sedimentation method
Wallnofer E, Perchthaler M, Hacker V, Squadrito G |
| 199 - 204 |
An air-cooled proton exchange membrane fuel cell with combined oxidant and coolant flow
Wu JF, Galli S, Lagana I, Pozio A, Monteleone G, Yuan XZ, Martin J, Wang HJ |
| 205 - 212 |
Operational condition analysis for vapor-fed direct methanol fuel cells
Chang I, Ha S, Kim S, Kang S, Kim J, Choi K, Cha SW |
| 213 - 219 |
Comparison of current distributions in proton exchange membrane fuel cells with interdigitated and serpentine flow fields
Zhang GS, Guo LJ, Ma B, Liu HT |
| 220 - 224 |
Mechanical properties of micro-tubular solid oxide fuel cell anodes
Roy BR, Sammes NM, Suzuki T, Funahashi Y, Awano M |
| 225 - 229 |
Effect of surface roughness of composite bipolar plates on the contact resistance of a proton exchange membrane fuel cell
Avasarala B, Haldar P |
| 230 - 237 |
Structural and electrochemical characterisation of Pr0.7Ca0.3Cr1-yMnyO3-delta as symmetrical solid oxide fuel cell electrodes
El-Himri A, Marrero-Lopez D, Ruiz-Morales JC, Pena-Martinez J, Nunez P |
| 238 - 243 |
Chemical kinetics of Ru-catalyzed ammonia borane hydrolysis
Basu S, Brockman A, Gagare P, Zheng Y, Ramachandran PV, Delgass WN, Gore JP |
| 244 - 255 |
A natural-gas fuel processor for a residential fuel cell system
Adachi H, Ahmed S, Lee SHD, Papadias D, Ahluwalia RK, Bendert JC, Kanner SA, Yamazaki Y |
| 256 - 260 |
A planar microfabricated electrolyzer for hydrogen and oxygen generation
Jiang L, Myer B, Tellefsen K, Pau S |
| 261 - 267 |
Enhanced conductivity of plasticized polymer electrolytes containing chelating groups
Liang YH, Hung CY, Wang CC, Chen CY |
| 268 - 273 |
Microstructure and electrochemical performance of thin film anodes for lithium ion batteries in immiscible Al-Sn system
Hu RZ, Zeng MQ, Li CYV, Zhu M |
| 274 - 280 |
Investigation of cell parameters, microstructures and electrochemical behaviour of LiMn2O4 normal and nano powders
Kamarulzaman N, Yusoff R, Kamarudin N, Shaari NH, Aziz NAA, Bustam MA, Blagojevic N, Elcombe M, Blackford M, Avdeev M, Arof AK |
| 281 - 285 |
Electrochemical behaviour of Heusler alloy Co2MnSi for secondary lithium batteries
Park JH, Jeong DH, Cha SM, Sun YK, Yoon CS |
| 286 - 291 |
Electrochemical reactivity of ball-milled MoO3-y as anode materials for lithium-ion batteries
Jung YS, Lee S, Ahn D, Dillon AC, Lee SH |
| 292 - 295 |
Porous microspheres as additives in lead-acid batteries
Newell JD, Patankar SN, Edwards DB |
| 296 - 300 |
Influence of the cooling rate on the ageing of lead-calcium alloys
Rossi F, Lambertin M, Delfaut-Durut L, Maitre A, Vilasi M |
| 301 - 307 |
Preliminary study on zinc-air battery using zinc regeneration electrolysis with propanol oxidation as a counter electrode reaction
Wen YH, Cheng J, Ning SQ, Yang YS |
| 308 - 312 |
Nano-NiOOH prepared by splitting method as super high-speed charge/discharge cathode material for rechargeable alkaline batteries
Pan JQ, Sun YZ, Wang ZH, Wan PY, Yang YS, Fan MH |
| 313 - 318 |
A high-performance counter electrode based on poly(3,4-alkylenedioxythiophene) for dye-sensitized solar cells
Lee KM, Chen PY, Hsu CY, Huang JH, Ho WH, Chen HC, Ho KC |
| 319 - 322 |
Preparation of polymer film of micro-porous or island-like structure and its application in dye-sensitized solar cell
Chen CM, Shiu HS, Cheng SJ, Wei TC |
| 323 - 331 |
Electrodeposited manganese oxides on three-dimensional carbon nanotube substrate: Supercapacitive behaviour in aqueous and organic electrolytes
Nam KW, Lee CW, Yang XQ, Cho BW, Yoon WS, Kim KB |
| 332 - 337 |
Radio frequency oxygen-plasma treatment of carbon nanotube electrodes for electrochemical capacitors
Lin CC, Huang HC |
| 338 - 342 |
Characterization of honeycomb-like "beta-Ni(OH)(2)" thin films synthesized by chemical bath deposition method and their supercapacitor application
Patil UM, Gurav KV, Fulari VJ, Lokhande CD, Joo OS |
