| 1 - 9 |
Three-dimensional numerical analysis of proton exchange membrane fuel cells (PEMFCs) with conventional and interdigitated flow fields
Hu GL, Fan JR, Chen S, Liu YJ, Cen KF |
| 10 - 15 |
Methanol electrooxidation at Pt-Ru-W sputter deposited on Au substrate
Umeda M, Ojima H, Mohamedi M, Uchida I |
| 16 - 23 |
Synthesis and characterization of cross-linked chitosan membranes for application as alternative proton exchange membrane materials in fuel cells
Mukoma P, Jooste BR, Vosloo HCM |
| 24 - 29 |
Performance characteristics of Gd-doped barium cerate-based fuel cells
Maffei N, Pelletier L, McFarlan A |
| 30 - 36 |
Improvement of anode performance by surface modification for solid oxide fuel cell running on hydrocarbon fuel
Yoon SP, Han J, Nam SW, Lim TH, Hong SA |
| 37 - 44 |
On the improved properties of injection-molded, carbon nanotube-filled PET/PVDF blends
Wu M, Shaw LL |
| 45 - 54 |
Modelling study of CO2 poisoning on PEMFC anodes
Janssen GJM |
| 55 - 65 |
Development of a 2 W direct methanol fuel cell power source
Xie CG, Bostaph J, Pavio J |
| 66 - 71 |
Fabrication and properties of anode-supported tubular solid oxide fuel cells
Du YH, Sammes NM |
| 72 - 79 |
Structural studies of Li4/3Me5/3O4 (Me = Ti, Mn) electrode materials: local structure and electrochemical aspects
Julien CM, Massot M, Zaghib K |
| 80 - 87 |
CU3P as anode material for lithium ion battery: powder morphology and electrochemical performances
Bichat MP, Politova T, Pfeiffer H, Tancret F, Monconduit L, Pascal JL, Brousse T, Favier F |
| 88 - 98 |
Improvement of the cycleability of nano-crystalline lithium manganate cathodes by cation co-doping
Nieto S, Majumder SB, Katiyar RS |
| 99 - 107 |
Development of a simulator for both property and safety of a lithium secondary battery
Yamauchi T, Mizushima K, Satoh Y, Yamada S |
| 108 - 114 |
Mixed silicon-graphite composites as anode material for lithium ion batteries influence of preparation conditions on the properties of the material
Dimov N, Kugino S, Yoshio A |
| 115 - 121 |
Electrochemical properties of lithium manganese oxides with different surface areas for lithium ion batteries
Takahashi K, Saitoh M, Asakura N, Hibino T, Sano M, Fujita M, Kifune K |
| 122 - 131 |
Effect of silver co-sputtering on amorphous V2O5 thin-films for microbatteries
Lee JM, Hwang HS, Cho WI, Cho BW, Kim KY |
| 132 - 138 |
Electrochemical properties of LiNi0.8Co0.2-xAlxO2 prepared by a sol-gel method
Han CJ, Yoon JH, Cho W, Jang H |
| 139 - 144 |
Effects of preparation methods of LiNi0.8Co0.2O2 cathode materials on their morphology and electrochemical performance
Gong ZL, Liu HS, Guo XJ, Zhang ZR, Yang Y |
| 145 - 149 |
High capacity Si/C nanocomposite anodes for Li-ion batteries
Kim IS, Kumta PN |
| 150 - 153 |
LiNiPO4-LiCoPO4 solid solutions as cathodes
Wolfenstine J, Allen J |
| 154 - 159 |
Microstructure and electrochemical properties of a nanometer-scale tin anode for lithium secondary batteries
Choi W, Lee JY, Jung BH, Lim HS |
| 160 - 170 |
Power-ion battery: bridging the gap between Li-ion and supercapacitor chemistries
Du Pasquier A, Plitz I, Gural J, Badway F, Amatucci GG |
| 171 - 179 |
A study of the scattering of valve regulated lead acid batteries in a string
Rossinot E, Lefrou C, Cun JP |
| 180 - 185 |
The effects of pulse charging on inner pressure and cycling characteristics of sealed Ni/MH batteries
Zhang EX, Yu JX, Cha CS, Yang HX |
| 186 - 190 |
Use of nitrogen in the recycling of nickel cadmium batteries
Espinosa DCR, Tenorio JAS |
| 191 - 196 |
Simultaneous recovery of zinc and manganese dioxide from household alkaline batteries through hydrometallurgical processing
de Souza CCBM, Tenorio JAS |
| 197 - 200 |
Synthesis of Co(OH)(2)/USY composite and its application for electrochemical supercapacitors
Liang YY, Cao L, Kong LB, Li HL |
| 201 - 201 |
Potassium secondary cell based on Prussian blue cathode (vol 126, pg 221, 2004)
Eftekhari A |
