| 1 - 6 |
The advanced lead-acid battery consortium - a worldwide cooperation brings rapid progress
Moseley PT |
| 7 - 11 |
A high performance lead-acid battery for EV applications
Battlebury DR |
| 12 - 16 |
Beneficial effect of carbon-PVA colloid additives for lead-acid batteries
Kozawa A, Oho H, Sano M, Brodd D, Brodd R |
| 17 - 20 |
Modelling and simulation of lead-acid battery charging
Catherino HA, Burgel JF, Rusek A, Feres F |
| 21 - 29 |
Environmental assessment of vanadium redox and lead-acid batteries for stationary energy storage
Rydh CJ |
| 30 - 38 |
Reliability of rechargeable batteries in a photovoltaic power supply system
Urbina A, Paez TL, O'Gorman C, Barney P, Jungst RG, Ingersoll D |
| 39 - 45 |
Electrochemical characteristics of the interface between the metal hydride electrode and electrolyte for an advanced nickel metal hydride battery
Hen JW, Feng F, Geng MM, Buxbaum R, Northwood DO |
| 46 - 52 |
In-plane compression porometry of battery separators
Jena AK, Gupta KM |
| 53 - 60 |
Silver-zinc: status of technology and applications
Karpinski AP, Makovetski B, Russell SJ, Serenyi JR, Williams DC |
| 61 - 65 |
Alternative separation evaluations in model rechargeable silver-zinc cells
Lewis HL, Danko T, Himy A, Johnson W |
| 66 - 71 |
Synthetic silver oxide and mercury-free zinc electrodes for silver-zinc reserve batteries
Smith DF, Gucinski JA |
| 72 - 77 |
The influence of discharge time on post-partial discharge gassing of zinc powder
Glaeser W, Kunzel-Keune S, Merkel P |
| 78 - 82 |
Magnesium-solution phase catholyte seawater electrochemical system
Medeiros MG, Dow EG |
| 83 - 89 |
Dynamically compacted all-ceramic lithium-ion batteries
Jak MJG, Ooms FGB, Kelder EM, Legerstee WJ, Schoonman J, Weisenburger A |
| 90 - 97 |
Synthesis, investigation and practical application in lithium batteries of some compounds based on vanadium oxides
Shembel E, Apostolova R, Nagirny V, Aurbach D, Markovsky B |
| 98 - 102 |
Future cathode materials for lithium rechargeable batteries
Ritchie AG, Giwa CO, Lee JC, Bowles P, Gilmour A, Allan J, Rice DA, Brady F, Tsang SCE |
| XI - XI |
Research and development in non-mechanical electrical power sources - The 21st International Power Sources Symposium held at Brighton, UK, 10-12 May 1999 - Foreword
Keily T |
| 103 - 106 |
Lithium metal rechargeable cells using Li2MnO3 as the positive electrode
Kalyani P, Chitra S, Mohan T, Gopukumar S |
| 107 - 111 |
Development of a hybrid battery system for an implantable biomedical device, especially a defibrillator cardioverter (ICD)
Drews J, Wolf R, Fehrmann G, Staub R |
| 112 - 115 |
Recent progress in rechargeable nickel metal hydride and lithium-ion miniature rechargeable batteries
Ilic D, Kilb M, Holl K, Praas HW, Pytlik E |
| 116 - 118 |
Electrical and electrochemical performance characteristics of large capacity lithium-ion cells
Nagasubramanian G, Ingersoll D, Doughty D, Radzykewycz D, Hill C, Marsh C |
| 119 - 127 |
Performance characteristics of Ultralife's solid polymer rechargeable batteries
Xue JS, Wise RD, Zhang XL, Manna ME, Lu YX, Ducharme G, Cuellar EA |
| 128 - 133 |
Scale-up of lithium rechargeable batteries
Ritchie AG, Giwa CO, Lee JC, Bowles P, Gilmour A, Allan J |
| 134 - 141 |
Electrochemical efficiency in multiple discharge recharge cycling of supercapacitors in hybrid EV applications
Pell WG, Conway BE, Adams WA, de Oliveira J |
| 142 - 148 |
Polythiophene-based supercapacitors
Laforgue A, Simon P, Sarrazin C, Fauvarque JF |
| 149 - 155 |
Electrode compositions for carbon power supercapacitors
Bonnefoi L, Simon P, Fauvarque JF, Sarrazin C, Sarrau JF, Dugast A |
| 156 - 156 |
Lead-acid batteries for the unique requirements of the Norwegian army
Coldviek W, Rice D, Myrvold K |
| 157 - 163 |
Development of advanced nickel metal hydride batteries for electric and hybrid vehicles
Gifford P, Adams J, Corrigan D, Venkatesan S |
| 164 - 170 |
The ZEBRA electric vehicle battery: power and energy improvements
Galloway RC, Haslam S |
| 171 - 179 |
New developments in the Electric Fuel Ltd zinc air system
Goldstein J, Brown I, Koretz B |
| 180 - 189 |
Saft lithium-ion energy and power storage technology
Saft M, Chagnon G, Faugeras T, Sarre G, Morhet P |
| 190 - 197 |
Intermittent use of a low-cost alkaline fuel cell-hybrid system for electric vehicles
Kordesch K, Gsellmann J, Cifrain M, Voss S, Hacker V, Aronson RR, Fabjan C, Hejze T, Daniel-Ivad J |
| 198 - 198 |
Is electric vehicle driving safe? Safety testing of electric vehicle batteries
Gutjar MA |
| 199 - 206 |
The 1998 World Solar Rallye: Akita, Japan
Shacklock A, Duke M, Burgess N |
| 207 - 212 |
Alkaline fuel cells for road traction
De Geeter E, Mangan M, Spaepen S, Stinissen W, Vennekens G |
| 213 - 216 |
Power sources for hybrid buses: comparative evaluation of the state of the art
Van den Bossche P |
| 217 - 225 |
Can the electricity distribution network cope with an influx of electric vehicles?
Webster R |
| 226 - 234 |
Comparative studies of polymer electrolyte membrane fuel cell stack and single cell
Chu D, Jiang RZ |
| 235 - 241 |
New materials for polymer electrolyte membrane fuel cell current collectors
Hentall PL, Lakeman JB, Mepsted GO, Adcock PL, Moore JM |
| 242 - 247 |
A hybrid power source for pulse power applications
Jones PB, Lakeman JB, Mepsted GO, Moore JM |
| 248 - 253 |
A study of cathode catalysis for the aluminium hydrogen peroxide semi-fuel cell
Bessette RR, Cichon JM, Dischert DW, Dow EG |
| 254 - 260 |
The alkaline aluminium hydrogen peroxide power source in the Hugin II unmanned underwater vehicle
Hasvold O, Johansen KH, Mollestad O, Forseth S, Storkersen N |
| 261 - 264 |
Testing of a sodium nickel chloride (ZEBRA) battery for electric propulsion of ships and vehicles
Kluiters EC, Schmal D, ter Veen WR, Posthumus KJCM |
| 265 - 271 |
An environmental aircraft battery (EAB)
Erbacher JK |
| 272 - 272 |
Lithium-ion cells for aerospace applications
Gitzendanner RL, Marsh C, Marsh RA, Puglia F, Vukson S, Surampudi R |
| 273 - 277 |
Reliability and performance of primary lithium batteries for ultrasonic gas meters
Chan ML |
| 278 - 285 |
Proposed amendments to UNST/SG/AC.10/11: transport of dangerous goods-lithium batteries
Farrington MD |
| 286 - 292 |
Development of a BB-2590/U rechargeable lithium-ion battery
Juzkow M |
| 293 - 300 |
Determination of state-of-charge and state-of-health of batteries by fuzzy logic methodology
Salkind AJ, Fennie C, Singh P, Atwater T, Reisner DE |
| XVII - XXI |
The Bourner lecture: Electric vehicles: can we get there from here?
Callow GD |
