| 2131 - 2135 |
Performance of anode-supported solid oxide fuel cell using novel ceria electrolyte
Ahn JS, Omar S, Yoon H, Nino JC, Wachsman ED |
| 2136 - 2142 |
Hydrogen generation from catalytic hydrolysis of alkaline sodium borohydride solution using attapulgite clay-supported Co-B catalyst
Tian HJ, Guo QJ, Xu DY |
| 2143 - 2148 |
Preparation of dispersible double-walled carbon nanotubes and application as catalyst support in fuel cells
Wu ZP, Xia BY, Wang XX, Wang JN |
| 2149 - 2158 |
The effect of HCl in syngas on Ni-YSZ anode-supported solid oxide fuel cells
Xu CC, Gong MY, Zondlo JW, Liu XB, Finklea HO |
| 2159 - 2165 |
Ionomers based on multisulfonated perylene dianhydride: Synthesis and properties of water resistant sulfonated polyimides
Zhang F, Li NW, Zhang SB, Li SH |
| 2166 - 2173 |
A novel crosslinking strategy for preparing poly(vinyl alcohol)-based proton-conducting membranes with high sulfonation
Tsai CE, Lin CW, Hwang BJ |
| 2174 - 2181 |
Performances of LnBaCo(2)O(5+x)-Ce0.8Sm0.2O1.9 composite cathodes for intermediate-temperature solid oxide fuel cells
Zhou QJ, Wang F, Shen Y, He TM |
| 2182 - 2188 |
The influence of polymer electrolyte fuel cell cathode degradation on the electrode polarization
Aoki T, Matsunaga A, Ogami Y, Maekawa A, Mitsushima S, Ota K, Nishikawa H |
| 2189 - 2195 |
Ceria and copper/ceria functional coatings for electrochemical applications: Materials preparation and characterization
Melnik J, Fu XZ, Luo JL, Sanger AR, Chuang KT, Yang QM |
| 2196 - 2201 |
Synthesis and electrical properties of apatite-type La10Si6O27
Li B, Liu W, Pan W |
| 2202 - 2211 |
Microporous layer coated gas diffusion layers for enhanced performance of polymer electrolyte fuel cells
Kitahara T, Konomi T, Nakajima H |
| 2212 - 2219 |
Quaternized poly(vinyl alcohol)/alumina composite polymer membranes for alkaline direct methanol fuel cells
Yang CC, Chiu SJ, Chien WC, Chiu SS |
| 2220 - 2223 |
Fabrication and characterization of a Ba0.5Sr0.5Co0.8Fe0.2O3-delta-Gadolinia-doped ceria cathode for an anode-supported solid-oxide fuel cell
Kao WX, Lee MC, Lin TN, Wang CH, Chang YC |
| 2224 - 2229 |
Sol-gel based silica electrodes for inorganic membrane direct methanol fuel cells
Kim H, Kohl PA |
| 2230 - 2235 |
Effects of coal syngas major compositions on Ni/YSZ anode-supported solid oxide fuel cells
Miao H, Wang WG, Li TS, Chen T, Sun SS, Xu C |
| 2236 - 2240 |
Electrochemical analysis of perpendicular mesoporous Pt electrode filled with pure water for clarifying the active region in fuel cell catalyst layers
Tominaka S, Wu CW, Kuroda K, Osaka T |
| 2241 - 2247 |
The effect of hydrogen crossover on open-circuit voltage in polymer electrolyte membrane fuel cells
Vilekar SA, Datta R |
| 2248 - 2259 |
Analysis of heat and mass transport in a miniature passive and semi passive liquid-feed direct methanol fuel cell
Xiao B, Bahrami H, Faghri A |
| 2260 - 2265 |
Parametric study of anodic microstructures to cell performance of planar solid oxide fuel cell using measured porous transport properties
Huang CM, Shy SS, Chien CW, Lee CH |
| 2266 - 2282 |
Elementary reaction kinetic model of an anode-supported solid oxide fuel cell fueled with syngas
Li C, Shi YX, Cai NS |
| 2283 - 2290 |
Improved modelling of the fuel cell power module within a system-level model for solid-oxide fuel cell cogeneration systems
Carl M, Djilali N, Beausoleil-Morrison I |
| 2291 - 2300 |
Development of porous carbon foam polymer electrolyte membrane fuel cell
Kim J, Cunningham N |
| 2301 - 2309 |
Temperature and stress induced changes of the vibrational response of cubic and rhombohedral 10 mol%Sc2O3-1 mol%CeO2-ZrO2 ceramics
Lukich S, Carpenter C, Orlovskaya N |
| 2310 - 2318 |
Modeling of thermal stresses and lifetime prediction of planar solid oxide fuel cell under thermal cycling conditions
Liu L, Kim GY, Chandra A |
| 2319 - 2330 |
An impedance study of an operating direct methanol fuel cell
Yang SH, Chen CY, Wang WJ |
| 2331 - 2345 |
Pore-scale investigation of mass transport and electrochemistry in a solid oxide fuel cell anode
Grew KN, Joshi AS, Peracchio AA, Chiu WKS |
| 2346 - 2354 |
Exergy analysis of an integrated solid oxide fuel cell and organic Rankine cycle for cooling, heating and power production
Al-Sulaiman FA, Dincer I, Hamdullahpur F |
| 2355 - 2361 |
In situ polyol-assisted synthesis of nano-SnO2/carbon composite materials as anodes for lithium-ion batteries
Courtel FM, Baranova EA, Abu-Lebdeh Y, Davidson IJ |
| 2362 - 2367 |
A novel method for synthesis of layered LiNi1/3Mn1/3Co1/3O2 as cathode material for lithium-ion battery
Wu F, Wang M, Su YF, Bao LY, Chen S |
| 2368 - 2371 |
Improving the electrochemical properties of graphite/LiCoO2 cells in ionic liquid-containing electrolytes
Choi NS, Lee Y, Kim SS, Shin SC, Kang YM |
| 2372 - 2376 |
Carbon-coated MoO3 nanobelts as anode materials for lithium-ion batteries
Hassan MF, Guo ZP, Chen Z, Liu HK |
| 2377 - 2384 |
The economics of using plug-in hybrid electric vehicle battery packs for grid storage
Peterson SB, Whitacre JF, Apt J |
| 2385 - 2392 |
Lithium-ion battery cell degradation resulting from realistic vehicle and vehicle-to-grid utilization
Peterson SB, Apt J, Whitacre JF |
| 2393 - 2398 |
Three-dimensional thermal finite element modeling of lithium-ion battery in thermal abuse application
Guo GF, Long B, Cheng B, Zhou SQ, Xu P, Cao BG |
| 2399 - 2404 |
Iron/carbon-black composite nanoparticles as an iron electrode material in a paste type rechargeable alkaline battery
Kao CY, Chou KS |
| 2405 - 2413 |
The air quality and human health effects of integrating utility-scale batteries into the New York State electricity grid
Gilmore EA, Apt J, Walawalkar R, Adams PJ, Lave LB |
| 2414 - 2418 |
Polymer/graphite oxide composites as high-performance materials for electric double layer capacitors
Tien CP, Teng HS |
