| 1 - 22 |
Future prospects for production of methanol and hydrogen from biomass
Hamelinck CN, Faaij APC |
| 23 - 38 |
Influence of positive active material type and grid alloy on corrosion layer structure and composition in the valve regulated lead/acid battery
Ball RJ, Kurian R, Evans R, Stevens R |
| 39 - 42 |
In situ dynamic Ohmic resistivity measurement of LiNi1-yCoyO2 cathodes as a function of the state of discharge
Moshtev R, Zlatilova P, Bakalova L, Vassilev S |
| 43 - 51 |
A solid-polymer electrolyte direct methanol fuel cell with a mixed reactant and air anode
Shukla AK, Jackson CL, Scott K, Murgia G |
| 52 - 57 |
Study of novel lithium salt-based, plasticized polymer electrolytes
Silva MM, Barros SC, Smith MJ, MacCallum JR |
| 58 - 64 |
Fuel processing for PEM fuel cells: transport and kinetic issues of system design
Zalc JM, Loffler DG |
| 65 - 82 |
Evaluation of VRLA battery under overcharging: model for battery testing
Tenno A, Tenno R, Suntio T |
| 83 - 89 |
Direct formic acid fuel cells
Rice C, Ha RI, Masel RI, Waszczuk P, Wieckowski A, Barnard T |
| 90 - 96 |
Effect of carbon additive on electrochemical performance of LiCoO2 composite cathodes
Hong JK, Lee JH, Oh SM |
| 97 - 103 |
Synthesis by sol-gel method and electrochemical properties of LiNiO2 cathode material for lithium secondary battery
Song MY, Lee R |
| 104 - 108 |
Lithium insertion into Cr-2(So(4))(3) frameworks: variation of electrochemical behavior with cation substitution and nature of polyanion
Manickam M, Takata M |
| 109 - 120 |
Study of cobalt-doped lithium-nickel oxides as cathodes for MCFC
Ganesan P, Colon H, Haran B, White R, Popov BN |
| 121 - 129 |
Study of molten carbonate fuel cell - microturbine hybrid power cycles
Jurado F |
| 130 - 136 |
Factors that affect cycle-life and possible degradation mechanisms of a Li-ion cell based on LiCoO2
Choi SS, Lim HS |
| 137 - 144 |
Anodic deposition of nickel oxides for the nickel-based batteries
Hu CC, Cheng CY |
| 145 - 151 |
Effect of rare earth composition on the high-rate capability and low-temperature capacity of AB(5)-type hydrogen storage alloys
Ye H, Xia BJ, Wu WQ, Du K, Zhang H |
| 152 - 159 |
Mechanisms of impedance rise in high-power, lithium-ion cells
Bloom I, Jones SA, Polzin EG, Battaglia VS, Henriksen GL, Motloch CG, Wright RB, Jungst RG, Case HL, Doughty DH |
| 160 - 164 |
Mesocarbon microbeads supported Pt-Ru catalysts for electrochemical oxidation of methanol
Liu YC, Qiu XP, Huang YQ, Zhu WT |
| 165 - 172 |
Ionic conductivity and ambient temperature Li electrode reaction in composite polymer electrolytes containing nanosize alumina
Nookala M, Kumar B, Rodrigues S |
| 173 - 175 |
Creep resistance comparison of two solid oxygen fuel cell electrolytes with the fluorite structure: cubic zirconia and doped-ceria
Wolfenstine J |
| 176 - 180 |
Electrochemical properties of iodine-containing lithium manganese oxide spinel
Han CH, Hong YS, Hong HS, Kim K |
| 181 - 184 |
Activation of low temperature PEM fuel cells
Qi ZG, Kaufman A |
| 185 - 190 |
Hybrid electrochemical capacitors based on polyaniline and activated carbon electrodes
Park JH, Park OO |
