| 103 - 109 |
Battery requirements for 36 V technology
Iemmi G, Dilecce B, Macerata D, Rena P |
| 110 - 113 |
High power battery systems for hybrid vehicles
Corson DW |
| 114 - 119 |
Extending cycle life of lead-acid batteries: a new separation system allows the application of pressure on the plate group
Perrin M, Doring H, Ihmels K, Weiss A, Vogel E, Wagner R |
| 120 - 126 |
High performance nickel-metal hydride battery in bipolar stack design
Ohms D, Kohlhase M, Benczur-Urmossy G, Wiesener K, Harmel J |
| 127 - 133 |
New developments on high power alkaline batteries for industrial applications
Ohms D, Kohlhase M, Benczur-Urmossy G, Schadlich G |
| 134 - 138 |
Life duration of Ni-MH cells for high power applications
Le Guenne L, Bernard P |
| 139 - 144 |
High performance nickel-metal hydride and lithium-ion batteries
Kohler U, Kumpers J, Ullrich M |
| 145 - 150 |
Metallic lithium batteries for high power applications
Stassen I, Hambitzer G |
| 151 - 160 |
Anodic materials for rechargeable Li-batteries
Wachtler M, Winter M, Besenhard JO |
| 161 - 168 |
Investigation of new types of lithium-ion battery materials
Scrosati B, Panero S, Reale P, Satolli D, Aihara Y |
| 169 - 181 |
Power limitations of supercapacitor and capacitance distribution operation associated with resistance in porous electrode devices
Conway BE, Pell WG |
| 182 - 188 |
New materials for supercapacitors
Wohlfahrt-Mehrens M, Schenk J, Wilde PM, Abdelmula E, Axmann P, Garche J |
| 189 - 194 |
Button cell supercapacitors with monolithic carbon aerogels
Probstle H, Schmitt C, Fricke J |
| 195 - 201 |
Conversion of hydrocarbons and alcohols for fuel cells
Joensen F, Rostrup-Nielsen JR |
| 202 - 207 |
Reforming of natural gas - hydrogen generation for small scale stationary fuel cell systems
Heinzel A, Vogel B, Hubner P |
| 208 - 215 |
The compression of hydrogen in an electrochemical cell based on a PE fuel cell design
Strobel R, Oszcipok M, Fasil M, Rohland B, Jorissen L, Garche J |
| 216 - 221 |
Operating experience with a 250 kW(el) molten carbonate fuel cell (MCFC) power plant
Bischoff M, Huppmann G |
| 222 - 227 |
The design of stationary and mobile solid oxide fuel cell-gas turbine systems
Winkler W, Lorenz H |
| 228 - 238 |
On the width of the electrochemically active region in mixed conducting solid oxide fuel cell cathodes
Fleig J |
| 239 - 242 |
Pulsed laser deposition of yttria stabilized zirconia for solid oxide fuel cell applications
Hobein B, Tietz F, Stover D, Kreutz EW |
| 243 - 249 |
Low-cost air-cooled PEFC stacks
Schmidt H, Buchner P, Datz A, Dennerlein K, Lang S, Waidbas M |
| 250 - 255 |
Fuel cells for low power applications
Heinzel A, Hebling C, Muller M, Zedda M, Muller C |
| 256 - 260 |
Metallic bipolar plates for PEM fuel cells
Wind J, Spah R, Kaiser W, Bohm G |
| 261 - 266 |
Study of membrane electrode assemblies for direct methanol fuel cells
Gulzow E, Kaz T, Reissner R, Sander H, Schilling L, von Bradke M |
| 267 - 273 |
New membranes for direct methanol fuel cells
Jorissen L, Gogel V, Kerres J, Garche J |
| 274 - 282 |
Recent developments of the measurement of the methanol permeation in a direct methanol fuel cell
Dohle H, Divisek J, Merggel J, Oetjen HF, Zingler C, Stolten D |
| 283 - 296 |
Recent advances in the development of direct alcohol fuel cells (DAFC)
Lamy C, Lima A, LeRhun V, Delime F, Coutanceau C, Leger JM |
| 297 - 304 |
Activity of PtRuMeOx (Me = W, Mo or V) catalysts towards methanol oxidation and their characterization
Jusys Z, Schmidt TJ, Dubau L, Lasch K, Jorissen L, Garche J, Behm RJ |
| 305 - 310 |
Mixed conducting catalyst support materials for the direct methanol fuel cell
Lasch K, Hayn G, Jorissen L, Garche J, Besenhardt O |
| VII - VII |
Special issue - Selected papers from the Seventh Ulmer Elektrochemische Tage - (Ulm Electrochemical Days) - Ulm, Germany, 26-27 June 2000
[Anonymous] |
