| 1 - 10 |
Comparison of dissolution behavior and ionic conduction between Sr and/or Mg doped LaGaO3 and LaA1O(3)
Chen TY, Fung KZ |
| 11 - 17 |
Dependence of optimum Nafion content in catalyst layer on platinum loading
Sasikumar G, Ihm JW, Ryu H |
| 18 - 28 |
Selective oxidation of carbon monoxide in hydrogen-rich stream over Cu-Ce/gamma-A1(2)O(3) catalysts promoted with cobalt in a fuel processor for proton exchange membrane fuel cells
Park JW, Jeong JH, Yoon WL, Rhee YW |
| 29 - 35 |
Performance of a natural gas fuel processor for residential PEFC system using a novel CO preferential oxidation catalyst
Echigo M, Shinke N, Takami S, Tabata T |
| 36 - 41 |
Gel-cast NiO-SDC composites as anodes for solid oxide fuel cells
Yin YH, Zhu W, Xia CR, Meng GY |
| 42 - 51 |
Numerical simulation of a disk-type SOFC for impedance analysis under power generation
Takano K, Nagata S, Nozaki K, Monma A, Kato T, Kaga Y, Negichi A, Kato K, Inagaki T, Yoshida H, Hosoi K, Hoshino K, Akbay T, Akikusa J |
| 52 - 58 |
System calculation of integrated coal gasification/molten carbonate fuel cell combined cycle - Reflection of electricity generating performances of practical cell
Yoshiba F, Izaki Y, Watanabe T |
| 59 - 63 |
Grafting of styrene on to Nafion membranes using supercritical CO2 impregnation for direct methanol fuel cells
Sauk J, Byun J, Kim H |
| 64 - 70 |
Prediction of production power for high-pressure hydrogen by high-pressure water electrolysis
Onda K, Kyakuno T, Hattori K, Ito K |
| 71 - 76 |
Ce0.8Gd0.2O2-delta ceramics derived from commercial submicron-sized CeO2 and Gd2O3 powders for use as electrolytes in solid oxide fuel cells
Ma J, Zhang TS, Kong LB, Hing P, Chan SH |
| 77 - 85 |
Analysis and optimization of a solid oxide fuel cell and intercooled gas turbine (SOFC-ICGT) hybrid cycle
Yi YF, Rao AD, Brouwer J, Samuelsen GS |
| 86 - 91 |
A passive fuel delivery system for portable direct methanol fuel cells
Guo Z, Cao Y |
| 92 - 98 |
Hydrogen separation using electrochemical method
Lee HK, Choi HY, Choi KH, Park JH, Lee TH |
| 99 - 112 |
Multi-objective optimization for hybrid fuel cells power system under uncertainty
Subramanyan K, Diwekar UM, Goyal A |
| 113 - 126 |
Definition and sensitivity analysis of a finite volume SOFC model for a tubular cell geometry
Campanari S, Iora P |
| 127 - 134 |
Transport phenomena in membranes for PEMFC applications: an analytical approach to the calculation of membrane resistance
De Francesco M, Arato E, Costa P |
| 135 - 138 |
An analysis of hydrogen production from ammonia hydride hydrogen generators for use in military fuel cell environments
Sifer N, Gardner K |
| 139 - 144 |
Potassium improved stability of Ni/MgO in the steam reforming of ethanol for the production of hydrogen for MCFC
Frusteri F, Freni S, Chiodo V, Spadaro L, Bonura G, Cavallaro S |
| 145 - 149 |
Simultaneous separation and renovation of lithium cobalt oxide from the cathode of spent lithium ion rechargeable batteries
Kim DS, Sohn JS, Lee CK, Lee JH, Han KS, Lee YI |
| 150 - 155 |
Effect of synthesis method on the electrochemical performance of LiNi1/3Mn1/3Co1/3O2
Li DC, Muta T, Zhang LQ, Yoshio M, Noguchi H |
| 156 - 160 |
Relationship between the electrochemical and particle properties of LiMn2O4 prepared by ultrasonic spray pyrolysis
Matsuda K, Taniguchi I |
| 161 - 165 |
Synthesis and electrochemical performance of spinel LiMn2-x-yNixCryO4 as 5-V cathode materials for lithium ion batteries
Sun Y, Wang Z, Huang XJ, Chen LQ |
| 166 - 171 |
Rechargeable lithium cells with dendrite-free electrodeposited lithium on aluminium as negative electrode
Suresh P, Shukla AK, Shivashankar SA, Munichandraiah N |
| 172 - 180 |
A simple mechano-thermal coating process for improved lithium battery cathode materials
Fey GTK, Yang HZ, Kumar TP, Naik SP, Chiang AST, Lee DC, Lin JR |
| 181 - 186 |
All solid-state rechargeable lithium cells based on nano-sulfur composite cathodes
Yu XG, Xie JY, Yang J, Wang K |
| 187 - 194 |
Electrochemical evaluation and modification of commercial lithium cobalt oxide powders
Zhang J, Xiang YJ, Yu Y, Xie S, Jiang GS, Chen CH |
| 195 - 200 |
Improvement of electrochemical stability of LiCoO2 cathode by a nano-crystalline coating
Zhao HL, Ling G, Qiu WH, Zhang XH |
| 201 - 205 |
Mechanism of gas build-up in a Li-ion cell at elevated temperature
Lee KH, Song EH, Lee JY, Jung BH, Lim HS |
| 206 - 208 |
Aluminium corrosion in room temperature molten salt
Garcia W, Armand M |
| 209 - 212 |
Correlation between positive-electrode morphology and sulfur utilization in lithium-sulfur battery
Kim NI, Lee CB, Seo JM, Lee WJ, Roh YB |
| 213 - 218 |
Synthesis and characterization of LiNi0.8Co0.2O2 prepared by a combustion solution method for lithium batteries
Periasamy P, Kim HS, Na SH, Moon SI, Lee JC |
| 219 - 224 |
Properties of Li[CrxLi(1-x)/3Mn2(1-x)/3]O-2 (0. 1 <= x <= 0.2) material prepared by quenching
Wu XL, Ryu KS, Hong YS, Park YJ, Chang SH |
| 225 - 228 |
Optimized Sn/SnSb lithium storage materials
Mukaibo H, Osaka T, Reale P, Panero S, Scrosati B, Wachtler M |
| 229 - 234 |
Investigation of electrical and electrochemical properties of PVDF-based polymer electrolytes
Mohamed NS, Arof AK |
| 235 - 239 |
Cycling performance of LiFePO4 cathode material for lithium secondary batteries
Kim HS, Cho BW, Cho WI |
| 240 - 243 |
Fabrication of 5 V lithium rechargeable micro-battery
Eftekhari A |
| 244 - 248 |
Allyl ethyl carbonate as an additive for lithium-ion battery electrolytes
Lee JT, Lin YW, Jan YS |
| 249 - 255 |
Effect of Al2O3 coating on electrochemical performance of LiCoO2 as cathode materials for secondary lithium batteries
Oh S, Lee JK, Byun D, Cho WI, Cho BW |
| 256 - 260 |
Nanoscale battery materials based on the self-assembly of block copolymers
Bullock SE, Kofinas P |
| 261 - 265 |
Voltammetric and morphological study of lead electrodeposition on copper substrate for application of a lead-acid batteries
Carlos IA, Matsuo TT, Siqueira JLP, de Almeida MRH |
| 266 - 274 |
Mathematic simulation on power generation by roll cake type of thermoelectric tubes
Suzuki RO, Tanaka D |
| 275 - 281 |
Studies of pasted nickel electrodes to improve cylindrical nickel-zinc cells
Taucher-Mautner W, Kordesch K |
| 282 - 287 |
Effects of carbon nanotubes on the high-rate discharge properties of nickel/metal hydride batteries
Lv J, Tu JP, Zhang WK, Wu JB, Wu HM, Zhang B |
| 288 - 290 |
Self-discharge of Fe-Ni alkaline batteries
Souza CAC, Carlos IA, Lopes M, Finazzi GA, de Almeida MRH |
| 291 - 295 |
Fabrication of all-solid-state thin-film secondary cells using hexacyanometallate-based electrode materials
Eftekhari A |
| 296 - 301 |
What is the limiting factor of the cycle-life of Zn-polyaniline rechargeable batteries?
Rahmanifar MS, Mousavi MF, Shamsipur M, Ghaemi M |
| 302 - 308 |
Effect of particle size on the electrode performance of MgNi hydrogen storage alloy
Rongeat C, Roue L |
| 309 - 314 |
Equivalent circuit parameters of nickel/metal hydride batteries from sparse impedance measurements
Nelatury SR, Singh P |
| 315 - 320 |
Synthesis and electrochemical characterization of amorphous MnO2 electrochemical capacitor electrode material
Reddy RN, Reddy RG |
