1 - 10 |
Rotating ring-disc electrode measurements of manganese dissolution and capacity loss of Li1+xMn2-xO4 and Li1+xAlyMn2-x-yO4 spinel electrodes for lithium-ion batteries Wang LF, Fang BJ, Chen JS |
11 - 19 |
Nafion/PTFE composite membranes for direct methanol fuel cell applications Lin HL, Yu TL, Huang LN, Chen LC, Shen KS, Jung GB |
20 - 26 |
Preparation of Cu/ZnO/Al2O3 catalyst for a micro methanol reformer Kawamura Y, Yamamoto K, Ogura N, Katsumata T, Igarashi A |
27 - 31 |
Alkaline direct alcohol fuel cells using an anion exchange membrane Matsuoka K, Iriyama Y, Abe T, Matsuoka M, Ogumi Z |
32 - 47 |
Dynamic modeling of solid oxide fuel cell: The effect of diffusion and inherent impedance Qi YT, Huang B, Chuang KT |
48 - 56 |
Membrane electrode assemblies based on sol-gel hybrid membranes - A preliminary investigation on fabrication aspects Thangamuthu R, Lin CW |
57 - 66 |
On-board production of hydrogen for fuel cells over Cu/ZnO/Al2O3 catalyst coating in a micro-channel reactor Yu XH, Tu ST, Wang ZD, Qi YS |
67 - 72 |
Sputter-deposited ultra-low catalyst loadings for PEM fuel cells Gruber D, Ponath N, Muller J, Lindstaedt F |
73 - 77 |
Residual stresses in planar solid oxide fuel cells Fischer W, Malzbender J, Blass G, Steinbrech RW |
78 - 85 |
New design of a PEM fuel cell air automatic climate control unit Glises R, Hissel D, Harel F, Pera MC |
86 - 100 |
Behaviour of various glass-ceramic sealants with ferritic steels under simulated SOFC stack conditions Haanappel VAC, Shemet V, Gross SM, Koppitz T, Menzler NH, Zahid M, Quadakkers WJ |
101 - 109 |
Dynamic simulation model of a steam reformer for a residential fuel cell power plant Jahn HJ, Schroer W |
110 - 119 |
Development of fuel cell bipolar plates from graphite filled wet-lay thermoplastic composite materials Huang JH, Baird DG, McGrath JE |
120 - 128 |
Investigation of membrane property and fuel cell behavior with sulfonated poly(ether ether ketone) electrolyte: Temperature and relative humidity effects Jiang RC, Kunz HR, Fenton JM |
129 - 135 |
A simple, mathematical model of thermal coupling in fuel cell stacks Promislow K, Wetton B |
136 - 149 |
Reliability and cost-benefits of adding alternate power sources to an independent micro-grid community Tanrioven M |
150 - 181 |
Switching to a US hydrogen fuel cell vehicle fleet: The resultant change in emissions, energy use, and greenhouse gases Colella WG, Jacobson MZ, Golden DM |
182 - 186 |
18650 Li-ion cells with reference electrode and in situ characterization of electrodes Nagasubramanian G, Doughty DH |
187 - 191 |
Commercialization scenarios of polymer electrolyte membrane fuel cell applications for stationary power generation in the United States by the year 2015 Millett S, Mahadevan K |
192 - 201 |
Nanocrystalline materials obtained by using a simple, rapid method for rechargeable lithium batteries Caballero A, Cruz M, Hernan L, Melero M, Morales J, Castellon ER |
202 - 207 |
Effect of an inorganic additive on cycling performance of Li/V2O5 polymer cells prepared with gel polymer electrolyte Song IC, Oh JS, Kim SH, Ko JM, Kirn DW |
208 - 215 |
Formation mechanism of alkyl dicarbonates in Li-ion cells Sasaki T, Abe T, Iriyama Y, Inaba M, Ogumi Z |
216 - 222 |
Preparation of co-doped spherical spinel LiMn2O4 cathode materials for Li-ion batteries He XM, Li JJ, Cai Y, Wang YW, Ying JR, Jiang CY, Wan CR |
223 - 228 |
A highly flexible polymer fibre battery Wang JZ, Too CO, Wallace GG |
229 - 239 |
Analysis of capacity fade in a lithium ion battery Stamps AT, Holland CE, White RE, Gatzke EP |
240 - 246 |
Mediated oxygen reduction at a glassy carbon electrode modified with riboflavin and 9,10-anthraquinones Manisankar P, Gomathi A |
247 - 254 |
Effect of annealing treatment on structure and electrochemical properties of La0.67Mg0.33Ni2.5CO0.5 alloy electrodes Zhang FL, Luo YC, Chen JP, Yan RX, Kang L, Chen JH |
255 - 260 |
Y(OH)(3)-coated Ni(OH)(2) tube as the positive-electrode materials of alkaline rechargeable batteries Cheng FY, Chen J, Shen PW |
261 - 271 |
The electrochemical properties of Fe2O3-loaded carbon electrodes for iron-air battery anodes Hang BT, Watanabe T, Eashira M, Okada S, Yamaki J, Hata S, Yoon SH, Mochida I |
272 - 275 |
Optimum conditions to prepare high yield, phase pure alpha-Ni(OH)(2) nanoparticles by urea hydrolysis and electrochemical ageing in alkali solutions Jayalakshmi M, Venugopal N, Reddy BR, Rao MM |
276 - 281 |
Application of volumetric electric-spark dispersion for the fabrication of Ti-Zr-Ni hydrogen storage alloys Kolbasov GY, Ustinov AI, Shcherba AA, Perekos AY, Danilov MO, Vyunova NV, Zakharchenko SN, Hossbah G |