| 1 - 13 |
Electrooxidation of acetaldehyde on a carbon supported Pt catalyst at elevated temperature/pressure: An on-line differential electrochemical mass spectrometry study
Sun S, Heinen M, Jusys Z, Behm RJ |
| 14 - 24 |
Selection of suitable operating conditions for planar anode-supported direct-internal-reforming solid-oxide fuel cell
Wongchanapai S, Iwai H, Saito M, Yoshida H |
| 25 - 33 |
The influence of discharge operation on the microstructure of strontium-doped lanthanum manganite cathode for solid oxide fuel
Yang J, Muroyama H, Matsui T, Eguchi K |
| 34 - 39 |
Simultaneous reduction of vanadium (V) and chromium (VI) with enhanced energy recovery based on microbial fuel cell technology
Zhang BG, Feng CP, Ni JR, Zhang J, Huang WL |
| 40 - 45 |
Performance enhancement of Ni-YSZ electrode by impregnation of Mo0.1Ce0.9O2+delta
Chen Y, Bunch J, Jin C, Yang CH, Chen FL |
| 46 - 52 |
Graphene nanoplate-Pt composite as a high performance electrocatalyst for direct methanol fuel cells
Huang HJ, Chen HQ, Sun DP, Wang X |
| 53 - 59 |
Characterization of Ba-deficient PrBa1-xCo2O5+delta as cathode material for intermediate temperature solid oxide fuel cells
Pang SL, Jiang XN, Li XN, Wang Q, Su ZX |
| 60 - 66 |
Enhanced hydrogen generation from hydrolysis of LiBH4 with diethyl ether addition for micro proton exchange membrane fuel cell application
Weng BC, Wu Z, Li ZL, Yang H |
| 67 - 73 |
Optimization of anode material composed of Y-doped SrTiO3 and metal and/or oxide additives for solid oxide fuel cells
Puengjinda P, Muroyama H, Matsui T, Eguchi K |
| 74 - 78 |
Durability of sulfonated polyimide membrane in humidity cycling for fuel cell applications
Miyatake K, Furuya H, Tanaka M, Watanabe M |
| 79 - 84 |
Electrochemical oxidation of hydrazine derivatives by carbon-supported metalloporphyrins
Yamazaki S, Ioroi T, Tanimoto K, Yasuda K, Asazawa K, Yamaguchi S, Tanaka H |
| 85 - 88 |
"Naked" Pd nanoparticles supported on carbon nanodots as efficient anode catalysts for methanol oxidation in alkaline fuel cells
Wei WT, Chen W |
| 89 - 93 |
A novel cobalt-free Ba0.5Sr0.5Fe0.9Mo0.1O3-delta-BaZr0.1Ce0.7Y0.2O3-alpha composite cathode for solid oxide fuel cells
Yang ZJ, Wang NB, Xiao J, Zhang HM, Zhang F, Ma GL, Zhou ZF |
| 94 - 99 |
Single phase through-plane permeability of carbon paper gas diffusion layers
Tamayol A, McGregor F, Bahrami M |
| 100 - 105 |
Analysis of the thermal field of a seal-less planar solid oxide fuel cell
Leone P, Lanzini A, Delhomme B, Ortigoza-Villalba GA, Smeacetto F, Santarelli M |
| 106 - 115 |
The influence of interconnect ribs on the performance of planar solid oxide fuel cell and formulae for optimal rib sizes
Kong W, Li JY, Liu SX, Lin ZJ |
| 116 - 121 |
Hydrazine/air direct-liquid fuel cell based on nanostructured copper anodes
Granot E, Filanovsky B, Presman I, Kuras I, Patolsky F |
| 122 - 126 |
Development of ceramic sealant for solid oxide fuel cell application: Self-healing property, mechanical stability and thermal stability
Zhang T, Zou Q, Zhang J, Tang D, Yang HW |
| 127 - 132 |
Effect of nano LiFePO4 coating on LiMn1.5Ni0.5O4 5V cathode for lithium ion batteries
Liu D, Trottier J, Charest P, Frechette J, Guerfi A, Mauger A, Julien CM, Zaghib K |
| 133 - 138 |
Effect of lithium difluoro(oxalato)borate and heptamethyldisilazane with different concentrations on cycling performance of LiMn2O4
Wu XW, Wang ZX, Li XH, Guo HJ, Zhang YH, Xiao W |
| 139 - 148 |
Tin dispersed in a calcium silicate matrix: A composite oxide as anode material for Li-ion batteries
Mouyane M, Womes M, Jumas JC, Olivier-Fourcade J, Lippens PE |
| 149 - 154 |
Rice paper as a separator membrane in lithium-ion batteries
Zhang LC, Sun X, Hu Z, Yuan CC, Chen CH |
| 155 - 161 |
NiO-graphene hybrid as an anode material for lithium ion batteries
Mai YJ, Shi SJ, Zhang D, Lu Y, Gu CD, Tu JP |
| 162 - 167 |
Nanoscale size effect of titania (anatase) nanotubes with uniform wall thickness as high performance anode for lithium-ion secondary battery
Panda SK, Yoon Y, Jung HS, Yoon WS, Shin H |
| 168 - 176 |
Effects of composition-dependent modulus, finite concentration and boundary constraint on Li-ion diffusion and stresses in a bilayer Cu-coated Si nano-anode
Yang B, He YP, Irsa J, Lundgren CA, Ratchford JB, Zhao YP |
| 177 - 181 |
New advanced cathode material: LiMnPO4 encapsulated with LiFePO4
Zaghib K, Trudeau M, Guerfi A, Trottier J, Mauger A, Veillette R, Julien CM |
| 182 - 186 |
Enhanced rate performance of two-phase carbon coated LiFePO4/(C+G) using natural graphite as carbon source
Yang XL, Mou F, Zhang LL, Peng G, Dai ZX, Wen ZY |
| 187 - 192 |
Preparation and electrochemical properties of Co-doped and none-doped Li[LixMn0.65(1-x)Ni0.35(1-x)]O-2 cathode materials for lithium battery batteries
Tang ZH, Wang ZX, Li XH, Peng WJ |
| 193 - 196 |
LiMn0.8Fe0.19Mg0.01PO4/C as a high performance cathode material for lithium ion batteries
Fang HS, Dai ER, Yang B, Yao YC, Ma WH |
| 197 - 199 |
Li3V2(PO4)(3)/C cathode material prepared via a sol-gel method based on composite chelating reagents
Wang LJ, Liu HB, Tang ZY, Ma L, Zhang XH |
| 200 - 204 |
Preparation of high quality layered-layered composite Li2MnO3-LiMO2 (M = Ni, Mn, Co) Li-ion cathodes by a ball milling-annealing process
West WC, Soler J, Ratnakumar BV |
| 205 - 212 |
Studies of copper as a modifier in C14-predominant AB(2) metal hydride alloys
Young K, Ouchi T, Huang B, Reichman B, Fetcenko MA |
| 213 - 219 |
Adiponitrile-based electrochemical double layer capacitor
Brandt A, Isken P, Lex-Balducci A, Balducci A |
| 220 - 229 |
Influence of nitric acid modification of ordered mesoporous carbon materials on their capacitive performances in different aqueous electrolytes
Lang JW, Yan XB, Liu WW, Wang RT, Xue QJ |
| 230 - 235 |
A novel mesoporous carbon with straight tunnel-like pore structure for high rate electrochemical capacitors
Zhang WF, Huang ZH, Cao GP, Kang FY, Yang YS |
| 236 - 243 |
Interfacial synthesis of mesoporous MnO2/polyaniline hollow spheres and their application in electrochemical capacitors
Wang JG, Yang Y, Huang ZH, Kang FY |
| 244 - 248 |
Synthesis of ordered mesoporous ruthenium by lyotropic liquid crystals and its electrochemical conversion to mesoporous ruthenium oxide with high surface area
Sugimoto W, Makino S, Mukai R, Tatsumi Y, Fukuda K, Takasu Y, Yamauchi Y |
| 249 - 256 |
Efficiency improvement and full characterization of dye-sensitized solar cells with MWCNT/anatase Schottky junctions
Quaranta S, Gozzi D, Tucci M, Lazzarini L, Latini A |
| 257 - 264 |
Synergistic effects of ZnO compact layer and TiCl4 post-treatment for dye-sensitized solar cells
Huang N, Liu YM, Peng T, Sun XH, Sebo B, Tai QD, Hu H, Chen BL, Guo SS, Zhao XZ |
| 265 - 272 |
Characterization of TiO2 nanotubes obtained by electrochemical anodization in organic electrolytes
Palmas S, Da Pozzo A, Delogu F, Mascia M, Vacca A, Guisbiers G |
