| 1 - 7 |
Methanol electrooxidation on platinum spontaneously deposited on unsupported and carbon-supported ruthenium nanoparticles
Kuk ST, Wieckowski A |
| 8 - 12 |
Highly water-proof coating of gas flow channels by plasma polymerization for PEM fuel cells
Taniguchi A, Yasuda K |
| 13 - 18 |
Carbon supported Pt70Co30 electrocatalyst prepared by the formic acid method for the oxygen reduction reaction in polymer electrolyte fuel cells
Salgado JRC, Antolini E, Gonzalez ER |
| 19 - 23 |
Hydrogen photosynthesis by Rhodobacter capsulatus and its coupling to a PEM fuel cell
He DL, Bultel Y, Magnin JP, Roux C, Willison JC |
| 24 - 29 |
Fabrication of electrocatalyst layers for direct methanol fuel cells
Chen CY, Yang P, Lee YS, Lin KF |
| 30 - 34 |
Manganese dioxide as a cathode catalyst for a direct alcohol or sodium borohydride fuel cell with a flowing alkaline electrolyte
Verma A, Jha AK, Basu S |
| 35 - 38 |
Electronically conducting hybrid material as high performance catalyst support for electrocatalytic application
Rajesh B, Thampi KR, Bonard JM, Mathieu HJ, Xanthopoulos N, Viswanathan B |
| 39 - 46 |
Effect of reactor heat transfer limitations on CO preferential oxidation
Ouyang X, Besser RS |
| 47 - 64 |
Analysis and design of PEM fuel
Mishra V, Yang F, Pitchumani R |
| 65 - 78 |
CFD-based modelling of proton exchange membrane fuel cells
Sivertsen BR, Djilali N |
| 79 - 95 |
Dependence of polarization in anode-supported solid oxide fuel cells on various cell parameters
Zhao F, Virkar AV |
| 96 - 101 |
Relationship between pressure drop and cell resistance as a diagnostic tool for PEM fuel cells
Barbir F, Gorgun H, Wang X |
| 102 - 107 |
A novel method to evaluate the suitability of glass sealant-alloy combinations under SOFC stack conditions
Haanappel VAC, Shemet V, Vinke IC, Quadakkers WJ |
| 108 - 115 |
Development of a lightweight fuel cell vehicle
Hwang JJ, Wang DY, Shih NC |
| 116 - 121 |
Comparison and improvement of the high rate performance of different types of LiMn2O4 spinels
Deng BH, Nakamura H, Yoshio M |
| 122 - 128 |
Accelerated synthesis and electrochemical performance of Li1+x(Ni0.5Mn0.5)O2+delta cathode materials
Shlyakhtin OA, Choi SH, Yoon YS, Oh YJ |
| 129 - 142 |
Effect of AlPO4-coating on cathodic behaviour of Li(Ni0.8CO0.2)O-2
Tan KS, Reddy MV, Rao GVS, Chowdari BV |
| 143 - 148 |
All solid-state lithium-polymer battery using poly(urethane acrylate)/nano-SiO2 composite electrolytes
Jiang GX, Maeda S, Yang HB, Saito Y, Tanase S, Sakai T |
| 149 - 155 |
Carbon paper as three-dimensional conducting substrate for tin anodes in lithium-ion batteries
Arbizzani C, Beninati S, Lazzari M, Mastragostino M |
| 156 - 158 |
Co-doped Mn3O4: a possible anode material for lithium batteries
Pasero D, Reeves N, West AR |
| 159 - 162 |
Carbon-coated Ni20Si80 alloy-graphite composite as an anode material for lithium-ion batteries
Lee HY, Kim YL, Hong MK, Lee SM |
| 163 - 166 |
Enhancement of capacity and cycle-life of Sn4+delta P3 (0 <=delta <= 1) anode for lithium secondary batteries
Kim YU, Lee SI, Lee CK, Sohn HJ |
| 167 - 170 |
Direct determination of transference numbers of LiClO4 solutions in propylene carbonate and acetonitrile
Mauro V, D'Aprano A, Croce F, Salomon M |
| 171 - 176 |
Flexible graphite as battery anode and current collector
Yazici MS, Krassowski D, Prakash J |
| 177 - 187 |
Development of gas-separation membrane-assisted lead-acid battery
Ismail AF, Hafiz WA |
| 188 - 192 |
Development of PVA based micro-porous polymer electrolyte by a novel preferential polymer dissolution process
Subramania A, Sundaram NTK, Sukumar N |
| 193 - 197 |
Deterioration mechanism of nickel metal-hydride batteries for hybrid electric vehicles
Shinyama K, Magari Y, Kumagae K, Nakamura H, Nohma T, Takee M, Ishiwa K |
| 198 - 203 |
Preparation and characterization of composite electrodes of coconut-shell-based activated carbon and hydrous ruthenium oxide for supercapacitors
Dandekar MS, Arabale G, Vijayamohanan K |
