| 1 - 8 |
Stable operation of air-blowing direct methanol fuel cells with high performance
Park JY, Lee JH, Kim J, Han S, Song I |
| 9 - 16 |
Performance and stability of composite nickel and molybdenum sulfide-based anodes for SOFC utilizing H2S
Vorontsov V, An W, Luo JL, Sanger AR, Chuang KT |
| 17 - 26 |
Electrocatalysis by nanocrystalline tungsten carbides and the effects of codeposited silver
Brady CDA, Rees EJ, Burstein GT |
| 27 - 33 |
Electricity generation by a baffle-chamber membraneless microbial fuel cell
Hu ZQ |
| 34 - 41 |
Polymer electrolytes based on sulfonated polysulfone for direct methanol fuel cells
Lufrano F, Baglio V, Staiti P, Arico AS, Antonucci V |
| 42 - 49 |
Effect of the catalyst composition in the Pt-x(Ru-Ir)(1-x)/C system on the electro-oxidation of methanol in acid media
Eguiluz KIB, Salazar-Banda GR, Miwa D, Machado SAS, Avaca LA |
| 50 - 59 |
High surface area synthesis, electrochemical activity, and stability of tungsten carbide supported Pt during oxygen reduction in proton exchange membrane fuel cells
Chhina H, Campbell S, Kesler O |
| 60 - 68 |
Properties and performance of Ba0.5Sr0.5Co0.8Fe0.2O3-delta+Sm0.2Ce0.8O1.9 composite cathode
Wang K, Ran R, Zhou W, Gu HX, Shao ZP, Ahn JM |
| 69 - 80 |
Synthesis and characterization of polyvinyl alcohol copolymer/phosphomolybdic acid-based crosslinked composite polymer electrolyte membranes
Anis A, Banthia AK, Bandyopadhyay S |
| 81 - 86 |
A polyoxometalate-deposited Pt/CNT electrocatalyst via chemical synthesis for methanol electrooxidation
Seo MH, Choi SM, Kim HJ, Kim JH, Cho BK, Kim WB |
| 87 - 91 |
Catalytic behavior of Co3O4 in electroreduction of H2O2
Cao DX, Chao JD, Sun LM, Wang GL |
| 92 - 95 |
Direct ammonia solid oxide fuel cell based on thin proton-conducting electrolyte
Zhang LM, Yang WS |
| 96 - 100 |
Substituted Sr2MnO4 as a possible cathode material in SOFC
Sun LP, Huo LH, Zhao H, Li Q, Pijolat C |
| 101 - 105 |
Improved surface proton conduction of yttrium-stabilized zirconia via acidic modifications
Wang H, Li LP, Yang Y, Li GS |
| 106 - 112 |
Thermophysical properties and devitrification of SrO-La2O3-Al2O3-B2O3-SiO2-based glass sealant for solid oxide fuel/electrolyzer cells
Mahapatra MK, Lu K, Reynolds WT |
| 113 - 120 |
Portable power production from methanol in an integrated thermoeletric/microreactor system
Karim AM, Federici JA, Vlachos DG |
| 121 - 131 |
Particle swarm optimization applied to the co-design of a fuel cell air circuit
Sari A, Espanet C, Hissel D |
| 132 - 139 |
Water profile determination in a running PEMFC by small-angle neutron scattering
Gebel G, Diat O, Escribano S, Mosdale R |
| 140 - 146 |
Physical degradation of membrane electrode assemblies undergoing freeze/thaw cycling: Diffusion media effects
Kim S, Ahn BK, Mench MM |
| 147 - 154 |
Planar array stack design aided by rapid prototyping in development of air-breathing PEMFC
Chen CY, Lai WH, Weng BJ, Chuang HJ, Hsieh CY, Kung CC |
| 155 - 163 |
Applications of one-cycle control to improve the interconnection of a solid oxide fuel cell and electric power system with a dynamic load
Auld AE, Mueller F, Smedley KM, Samuelsen S, Brouwer J |
| 164 - 176 |
Transient air cooling thermal modeling of a PEM fuel cell
Adzakpa KP, Ramousse J, Dube Y, Akremi H, Agbossou K, Dostie M, Poulin A, Fournier M |
| 177 - 185 |
High performance electrolyte-coated anodes for low-temperature solid oxide fuel cells: Model and experiments
Ding D, Zhu W, Gao JF, Xia CR |
| 186 - 199 |
A three-dimensional agglomerate model for the cathode catalyst layer of PEM fuel cells
Das PK, Li XG, Liu ZS |
| 200 - 208 |
Analytic determination of the effective thermal conductivity of PEM fuel cell gas diffusion layers
Sadeghi E, Bahrami M, Djilali N |
| 209 - 219 |
A comparison of different approaches to modelling the PEMFC catalyst layer
Harvey D, Pharoah JG, Karan K |
| 220 - 231 |
Transient response of high temperature PEM fuel cell
Peng J, Shin JY, Song TW |
| 232 - 239 |
Predictive control of SOFC based on a GA-RBF neural network model
Wu XJ, Zhu XJ, Cao GY, Tu HY |
| 240 - 251 |
Effect of anisotropic thermal conductivity of the GDL and current collector rib width on two-phase transport in a PEM fuel cell
Bapat CJ, Thynell ST |
| 252 - 264 |
Coolant controls of a PEM fuel cell system
Ahn JW, Choe SY |
| 265 - 273 |
Evaluation of coated metallic bipolar plates for polymer electrolyte membrane fuel cells
Yoon W, Huang XY, Fazzino P, Reifsnider KL, Akkaoui MA |
| 274 - 279 |
Scale-Lip of membrane-free single-chamber microbial fuel cells
Liu H, Cheng S, Huang LP, Logan BE |
| 280 - 285 |
Efficient electrochemical oxidation of ethanol to carbon dioxide in a fuel cell at ambient temperature
Ghumman A, Pickup PG |
| 286 - 291 |
Performance evaluation of several commercial alloys in a reducing environment
Liu Y |
| 292 - 296 |
The voltage characteristics of proton exchange membrane fuel cell (PEMFC) under steady and transient states
Shen Q, Hou M, Yan XQ, Liang D, Zang ZM, Hao LX, Shao ZG, Hou ZJ, Ming PW, Yi BL |
| 297 - 300 |
Electrokinetic energy conversion in slip nanochannels
Davidson C, Xuan XC |
| 301 - 304 |
Effect of pressure for direct fuel cells using DME-based fuels
Im JY, Kim BS, Choi HG, Cho SM |
| 305 - 309 |
Experimental study on clamping pressure distribution in PEM fuel cells
Wang XT, Song Y, Zhang B |
| 310 - 316 |
Mechanism for electrochemical hydrogen insertion in carbonaceous materials
Qu DY |
| 317 - 328 |
SOFC anodes for direct oxidation of hydrogen and methane fuels containing H2S
Grgicak CM, Green RG, Giorgi JB |
| 329 - 334 |
Combustion synthesis of copper catalysts for selective CO oxidation
Ribeiro NFP, Souza MMVM, Schmal M |
| 335 - 339 |
Sodium borohydride hydrolysis kinetics comparison for nickel, cobalt, and ruthenium boride catalysts
Walter JC, Zurawski A, Montgomery D, Thornburg M, Revankar S |
| 340 - 346 |
Optimized solid-state synthesis of LiFePO4 cathode materials using ball-milling
Kang HC, Jun DK, Jin B, Jin EM, Park KH, Gu HB, Kim KW |
| 347 - 350 |
Electrochemical and thermal characterization of AlF3-coated Li[Ni0.8Co0.15Al0.05]O-2 cathode in lithium-ion cells
Kim HB, Park BC, Myung ST, Amine K, Prakash J, Sun YK |
| 351 - 356 |
Nonflammable electrolyte for 3-V lithium-ion battery with spinel materials LiNi0.5Mn1.5O4 and Li4Ti5O12
Xiang HF, Jin QY, Wang R, Chen CH, Ge XW |
| 357 - 360 |
MoO2 synthesized by reduction Of MoO3 with ethanol vapor as an anode material with good rate capability for the lithium ion battery
Yang LC, Gao QS, Tang Y, Wu YP, Holze R |
| 361 - 366 |
Electrochemical synthesis of birnessite-type layered manganese oxides for rechargeable lithium batteries
Nakayama M, Kanaya T, Lee JW, Popov BN |
| 367 - 370 |
A new SiO/C anode composition for lithium-ion battery
Doh CH, Park CW, Shin HM, Kim DH, Chung YD, Moon SI, Jin BS, Kim HS, Veluchamy A |
| 371 - 380 |
Characterization of solid electrode materials using chronoamperometry: A study of the alkaline gamma-MnO2 electrode
Malloy AP, Donne SW |
| 381 - 387 |
Study of zinc electrodes for single flow zinc/nickel battery application
Zhang L, Cheng J, Yang YS, Wen YH, Wang XD, Cao GP |
| 388 - 394 |
Insights into the electrochemistry of layered double hydroxide containing cobalt and aluminum elements in lithium hydroxide aqueous solution
Su LH, Zhang XG, Mi CH, Liu Y |
| 395 - 400 |
Electrochemical performance of ZnO nanoplates as anode materials for Ni/Zn secondary batteries
Ma M, Tu JP, Yuan YF, Wang XL, Li KF, Mao F, Zeng ZY |
| 401 - 406 |
Heterogeneous electrolytes: Variables for and uncertainty in conductivity measurements
Kumar B |
| 407 - 411 |
A novel high capacity, environmentally benign energy storage system: Super-iron boride battery
Yu XW, Licht S |
| 412 - 416 |
In-situ study of the cracking of metal hydride electrodes by acoustic emission technique
Didier-Laurent S, Idrissi H, Roue L |
| 417 - 423 |
Optimal battery/ultracapacitor storage combination
Henson W |
| 424 - 429 |
Simulation of a thermal battery using Phoenics (R)
Freitas GCS, Peixoto FC, Vianna AS |
| 430 - 434 |
Manganese oxide electrochemical capacitor with potassium poly(acrylate) hydrogel electrolyte
Lee KT, Wu NL |
| 435 - 440 |
Ideal pseudocapacitive performance of the Mn oxide anodized from the nanostructured and amorphous Mn thin film electrodeposited in BMP-NTf2 ionic liquid
Chang JK, Huang CH, Tsai WT, Deng MJ, Sun IW |
| 441 - 441 |
Fine cathode particles prepared by solid-state reaction method using nano-sized precursor particles (vol 174, pg 598, 2007)
Ju SH, Koo HY, Hong SK, Jo EB, Kang YC |
