| 173 - 180 |
Characterization of the performance of commercial Ni/MH batteries
Nagarajan GS, Van Zee JW |
| 181 - 199 |
Analytical fuel cell modeling; non-isothermal fuel cells
Standaert F, Hemmes K, Woudstra N |
| 200 - 204 |
Lead/acid cell capacity improvement: the use of additional electrolyte volume
Armenta-Deu C |
| 205 - 213 |
Influence of perfluorinated surfactants on the positive active-material of lead/acid batteries
Shi Z, Zhou YH, Cha CS |
| 214 - 221 |
Influence of perfluorinated surfactants on the electrochemical behaviour of a lead electrode in sulfuric acid solution
Shi Z, Zhou YH, Cha CS |
| 222 - 227 |
Effects of Nb and Pd on the electrochemical properties of a Ti-Ni hydrogen-storage electrode
Wang CS, Lei YQ, Wang QD |
| 228 - 234 |
Effect of non-graphitized carbon electrodes on the electrochemical characteristics of a thermocell with a Br-2/Br-redox couple
Shindo K, Arakawa M, Hirai T |
| 235 - 239 |
Degradation mechanism due to decomposition of organic electrolyte in Li/MoS2 cells during long cycling
Kumai K, Ikeya T, Ishihara K, Iwahori T, Imanishi N, Takeda Y, Yamamoto O |
| 240 - 246 |
Calculation of temperature rise in lithium polymer batteries of Sandia conceptual designs during USABC dynamic stress test
Chen YF, Evans JW, Scharrer G |
| 247 - 252 |
The effect of multivalent cation dopants on lithium manganese spinel cathodes
de Kock A, Ferg E, Gummow RJ |
| 253 - 257 |
Power assisted fuel cell
Jarvis LP, Atwater TB, Plichta EJ, Cygan PJ |
| 258 - 268 |
Modeling electrochemical performance in large scale proton exchange membrane fuel cell stacks
Lee JH, Lalk TR, Appleby AJ |
| 269 - 275 |
Effect of curing on positive-plate behaviour in electric scooter lead/acid cells
Chen JS, Wang LF |
| 276 - 280 |
Heat dissipation from a Ni-MH battery during charge and discharge with a secondary electrode reaction
Zhang ZL, Zhong MH, Liu FM, Zhong FP, Wu F |
