| 1 - 11 |
Electroosmotic flow through polymer electrolyte membranes in PEM fuel cells
Karimi G, Li X |
| 12 - 20 |
Electrical properties of heterogeneously doped yttria stabilized zirconia
Kumar B, Chen C, Varanasi C, Fellner JP |
| 21 - 27 |
Preparation of Pd-coated polymer electrolyte membranes and their application in direct methanol fuel cells
Hejze T, Gollas BR, Sauerbrey RK, Schmied M, Hofer F, Besenhard JO |
| 28 - 33 |
CO2 adsorption on porous NiO as a cathode material for molten carbonate fuel cells
Ozkan G, Ozcelik E |
| 34 - 40 |
Proton electrolyte membrane properties and direct methanol fuel cell performance I. Characterization of hybrid sulfonated poly(ether ether ketone)/zirconium oxide membranes
Silva VS, Ruffmann B, Silva H, Gallego YA, Mendes A, Madeira LM, Nunes SP |
| 41 - 49 |
Proton electrolyte membrane properties and direct methanol fuel cell performance II. Fuel cell performance and membrane properties effects
Silva VS, Schirmer J, Reissner R, Ruffmann B, Silva H, Mendes A, Madeira LM, Nunes SP |
| 50 - 58 |
Direct ethanol fuel cells based on PtSn anodes: the effect of Sn content on the fuel cell performance
Zhou WJ, Song SQ, Li WZ, Zhou ZH, Sun GQ, Xin Q, Douvartzides S, Tsiakaras P |
| 59 - 65 |
Development of nanophase CeO2-Pt/C cathode catalyst for direct methanol fuel cell
Yu HB, Kim JH, Lee HI, Scibioh MA, Lee J, Han J, Yoon SP, Ha HY |
| 66 - 71 |
A plate-type reactor coated with zirconia-sol and catalyst mixture for methanol steam-reforming
Lim MS, Kim MR, Noh J, Woo SI |
| 72 - 80 |
Valveless piezoelectric micropump for fuel delivery in direct methanol fuel cell (DMFC) devices
Zhang T, Wang QM |
| 81 - 87 |
Porous nickel MCFC cathode coated by potentiostatically deposited cobalt oxide I. A structural and morphological study
Escudero MJ, Rodrigo T, Mendoza L, Cassir M, Daza L |
| 88 - 102 |
A reformer performance model for fuel cell applications
Sandhu SS, Saif YA, Fellner JP |
| 103 - 110 |
The effect of the MEA preparation procedure on both ethanol crossover and DEFC performance
Song S, Wang G, Zhou W, Zhao X, Sun G, Xin Q, Kontou S, Tsiakaras P |
| 111 - 124 |
Thermal analysis of lithium-ion batteries
Chen SC, Wan CC, Wang YY |
| 125 - 128 |
Cracking causing cyclic instability of LiFePO4 cathode material
Wang DY, Wu XD, Wang ZX, Chen LQ |
| 129 - 138 |
Simulated low-earth-orbit cycle-life testing of commercial laminated lithium-ion cells in a vacuum
Wang XM, Yamada C, Naito H, Kuwajima S |
| 139 - 144 |
Effect of electrode structure on performance of Si anode in Li-ion batteries: Si particle size and conductive additive
Liu WR, Guo ZZ, Young WS, Shieh DT, Wu HC, Yang MH, Wu NL |
| 145 - 150 |
Electrochemical characterization of high-performance LiNi0.8Co0.2O2 cathode materials for rechargeable lithium batteries
Oh SH, Jeong WT, Cho WI, Cho BW, Woo K |
| 151 - 156 |
Nanocomposite electrolytes with fumed silica in poly(methyl methacrylate): thermal, rheological and conductivity studies
Ahmad S, Ahmad S, Agnihotry SA |
| 157 - 161 |
Modeling capacity fade in lithium-ion cells
Liaw BY, Jungst RG, Nagasubramanian G, Case HL, Doughty DH |
| 162 - 167 |
Novel electrode substrates for rechargeable lithium/polypyrrole batteries
Wang J, Too CO, Zhou D, Wallace GG |
| 168 - 180 |
Processes taking place in the paste of lead-acid battery plates during soaking prior to formation and their influence on battery performance
Dimitrov M, Pavlov D, Rogachev T, Matrakova M, Bogdanova L |
| 181 - 202 |
An algorithm for selection and design of hybrid power supplies for MEMS with a case study of a micro-gas chromatograph system
Cook KA, Sastry AM |
| 203 - 210 |
Performance of experimental carbon blacks in aqueous supercapacitors
Toupin M, Belanger D, Hill IR, Quinn D |
| 211 - 215 |
Sol-gel template synthesis of highly ordered MnO2 nanowire arrays
Wang XY, Wang XY, Huang WG, Sebastian PJ, Gamboa S |
