| 1 - 1 |
Selected Papers presented at the 11th ULM ElectroChemical Days Neu-Ulm, Germany 11-12 June 2008 Preface
Garche J, Tillmetz W |
| 2 - 13 |
Ethanol electrooxidation on a carbon-supported Pt catalyst at elevated temperature and pressure: A high-temperature/high-pressure DEMS study
Sun S, Halseid MC, Heinen M, Jusys Z, Behm RJ |
| 14 - 24 |
Model study on the stability of carbon support materials under polymer electrolyte fuel cell cathode operation conditions
Colmenares LC, Wurth A, Jusys Z, Behm RJ |
| 25 - 33 |
Analysis of the electrochemical behaviour of polymer electrolyte fuel cells using simple impedance models
Danzer MA, Hofer EP |
| 34 - 39 |
Reliability computing of polymer-electrolyte-membrane fuel cell stacks through Petri nets
Wieland C, Schmid O, Meiler M, Wachtel A, Linsler D |
| 40 - 47 |
In situ voltammetric de-alloying of fuel cell catalyst electrode layer: A combined scanning electron microscope/electron probe micro-analysis study
Srivastava R, Mani P, Strasser P |
| 48 - 55 |
Nonlinear D-optimal design of experiments for polymer-electrolyte-membrane fuel cells
Meiler M, Andre D, Perez A, Schmid O, Hofer EP |
| 56 - 63 |
Nonlinear empirical model of gas humidity-related voltage dynamics of a polymer-electrolyte-membrane fuel cell stack
Meiler M, Andre D, Schmid O, Hofer EP |
| 64 - 75 |
Activity, stability and deactivation behavior of Au/CeO2 catalysts in the water gas shift reaction at increased reaction temperature (300 degrees C)
El-Moemen AA, Karpenko A, Denkwitz Y, Behm RJ |
| 76 - 82 |
Influence of structure dimensions on self-breathing micro fuel cells
Wagner S, Krumbholz S, Hahn R, Reichl H |
| 83 - 85 |
Externally cooled high temperature polymer electrolyte membrane fuel cell stack
Scholta J, Messerschmidt M, Jorissen L, Hartnig C |
| 86 - 91 |
Prevention of fuel cell starvation by model predictive control of pressure, excess ratio, and current
Danzer MA, Wittmann SJ, Hofer EP |
| 92 - 102 |
Characterisation of mechanical behaviour and coupled electrical properties of polymer electrolyte membrane fuel cell gas diffusion layers
Kleemann J, Finsterwalder F, Tillmetz W |
| 103 - 109 |
Sensing electrodes for failure diagnostics in fuel cells
Herrera O, Merida W, Wilkinson DP |
| 110 - 120 |
Characterization of water transport in gas diffusion media
Quick C, Ritzinger D, Lehnert W, Hartnig C |
| 121 - 132 |
Increase of the fuel cell system efficiency - Modular testing, analysis and development environment
Konig P, Ivers-Tiffee E |
| 133 - 140 |
Fuel cells for automotive powertrains-A techno-economic assessment
Mock P, Schmid SA |
| 141 - 148 |
Lithium intercalation and interfacial kinetics of composite anodes formed by oxidized graphite and copper
Mancini M, Nobili F, Dsoke S, D'Amico F, Tossici R, Croce F, Marassi R |
| 149 - 153 |
Electrochemical performance of SrF2-coated LiNi1/3Co1/3Mn1/3O2 cathode materials for Li-ion batteries
Li JG, Wang L, Zhang Q, He XM |
| 154 - 156 |
Expansion and shrinkage of the sulfur composite electrode in rechargeable lithium batteries
He XM, Ren JG, Wang L, Pu WH, Jiang CY, Wan CR |
| 157 - 161 |
Carbon-fiber-silicon-nanocomposites for lithium-ion battery anodes by microwave plasma chemical vapor deposition
Wolf H, Pajkic Z, Gerdes T, Willert-Porada M |
| 162 - 172 |
Heat tolerance of automotive lead-acid batteries
Albers J |
| 173 - 183 |
Micro-hybrid electric vehicle application of valve-regulated lead-acid batteries in absorbent glass mat technology: Testing a partial-state-of-charge operation strategy
Schaeck S, Stoermer AO, Hockgeiger E |
| 184 - 188 |
Modeling of the capacity loss of a 12 V automotive lead-acid battery due to ageing and comparison with measurement data
Kim US, Shin CB, Chung SM, Kim ST, Cho BW |
| 189 - 200 |
Precious metal oxides for electrochemical energy converters: Pseudocapacitance and pH dependence of redox processes
Kurzweil P |
