| 105 - 110 |
Solubility of vanadyl sulfate in concentrated sulfuric acid solutions
Rahman F, Skyllas-Kazacos M |
| 111 - 117 |
Specific surface-area measurement of lithium anode in rechargeable lithium cells
Saito K, Arakawa M, Tobishima S, Yamaki J |
| 118 - 125 |
An electrochemical impedance spectroscopy method for prediction of the state of charge of a nickel-metal hydride battery at open circuit and during discharge
Bundy K, Karlsson M, Lindbergh G, Lundqvist A |
| 126 - 131 |
Synthesis and electrochemical performances of tribasic and tetrabasic lead sulfates prepared by reactive grinding
Grugeon-Dewaele S, Laruelle S, Joliveau-Vallat F, Torcheux L, Delahaye-Vidal A |
| 132 - 135 |
Stability of aluminum substrates in lithium-ion battery electrolytes
Behl WK, Plichta EJ |
| 136 - 145 |
Thermodynamic behavior of Ni-Cd and Ni-H-2 batteries over wide ranges of temperatures (0-200 degrees C), KOH concentrations (0.1-20 mol kg(-1)) and H-2 pressure (0.1-500 bar)
Lvov SN, Macdonald DD |
| 146 - 149 |
Diffusion coefficient of Li+ in solid-state rechargeable battery materials
Andriiko AA, Rudenok PV, Nyrkova LI |
| 150 - 158 |
Degradation mechanism of layered MnO2 cathodes in Zn/ZnSO4/MnO2 rechargeable cells
Kim SH, Oh SM |
| 159 - 164 |
Novel methods of stabilization of Raney-Nickel catalyst for fuel-cell electrodes
Al-Saleh MA, Sleem-Ur-Rahman, Kareemuddin SMMJ, Al-Zakri AS |
| 165 - 173 |
Electrochemical impedance spectra of full cells: Relation to capacity and capacity-rate of rechargeable Li cells using LiCoO2, LiMn2O4, and LiNiO2 cathodes
Fan J, Fedkiw PS |
| 174 - 177 |
The effect of 1,2-dimethoxyethane on the storage and performance of lithium cells with MnO2 and (CF)(n) cathodes
Frackowiak E, Kuksenko S |
| 178 - 183 |
The evaluation of (Ta1/2Cu1/2)Sr2GdCu2O8-delta as an intercalation cathode material for lithium non-aqueous batteries
Hagan WP, Latham RJ, Schlindwein WS, Vickers SL |
| 184 - 188 |
How to decrease overaging in Pb-Ca-Sn alloys?
Hilger JP |
| 189 - 193 |
Energy and power characteristics of lithium-ion cells
Nagasubramanian G, Jungst RG |
| 194 - 202 |
The initial voltage drop in lead-acid cells: the influence of the overvoltage
Armenta-Deu C, Calvo-Baza V |
| 203 - 210 |
Surface films of lithium: an overview of electrochemical studies
Munichandraiah N, Scanlon LG, Marsh RA |
| 211 - 214 |
Spectrophotometric study of the corrosion behaviour of chromium in molten alkali carbonates
Joo CG, Yi CW, Kang CW, Kim K |
| 215 - 220 |
Synthesis by sol-gel process and characterization of LiCoO2 cathode materials
Peng ZS, Wan CR, Jiang CY |
| 221 - 225 |
Surface modification and electrochemical studies of spherical nickel hydroxide
Wang XY, Yan J, Yuan HT, Zhou Z, Song DY, Zhang YS, Zhu LG |
| 226 - 230 |
Influence of solvent species on the charge-discharge characteristics of a natural graphite electrode
Fujimoto M, Shoji Y, Kida Y, Ohshita R, Nohma T, Nishio K |
| 231 - 235 |
Influence of surfactants on electrochemical behavior of zinc electrodes in alkaline solution
Zhu JL, Zhou YH, Gao CQ |
| 236 - 238 |
Changes in the properties and structure of hydrogen-storage electrodes after long-term charge/discharge cycling
Zhou Z, Yan J, Li YX, Song DY, Zhang YS |
| 239 - 243 |
Surface transformations of polypropylene-graphite composite electrode material during intercalation/de-intercalation of monovalent cationic and anionic species from non-aqueous solvents
Santhanam R, Kamaraj P, Noel M |
| 244 - 244 |
European fuel cell research, development and demonstrations: Future programmes and aims
Ponthieu E |
