| 1 - 1 |
Fuel cell chemistry and operation
Hamrock SJ, Herring AM, Zawodzinski TA |
| 2 - 13 |
Membrane resistance and current distribution measurements under various operating conditions in a polymer electrolyte fuel cell
Brett DJL, Atkins S, Brandon NP, Vasileiadis N, Vesovic V, Kucernak AR |
| 14 - 19 |
Thermal studies of the state of water in proton conducting fuel cell membranes
Kalapos TL, Decker B, Every HA, Ghassemi H, Zawodzinski TA |
| 20 - 29 |
Hydrocarbon and partially fluorinated sulfonated copolymer blends as functional membranes for proton exchange membrane fuel cells
Arnett NY, Harrison WL, Adami ASB, Roy A, Lane O, Cromer F, Dong L, McGrath JE |
| 30 - 38 |
Synthesis and characterization of partially fluorinated hydrophobic-hydrophilic multiblock copolymers containing sulfonate groups for proton exchange membrane
Li YX, Roy A, Badami AS, Hill M, Yang J, Dunn S, McGrath JE |
| 39 - 49 |
Polarization measurements on single-step co-fired solid oxide fuel cells (SOFCs)
Yoon KJ, Zink P, Gopalan S, Pal UB |
| 50 - 56 |
Activity of ordered and disordered Pt-Co alloy phases for the electroreduction of oxygen in catalysts with multiple coexisting phases
Koh S, Yu C, Mani P, Srivastava R, Strasser P |
| 57 - 66 |
The relationship between proton conductivity and water permeability in composite carboxylate/sulfonate perfluorinated ionomer membranes
Hensley JE, Way JD |
| 67 - 71 |
Feasibility of liquid hydrocarbon fuels for SOFC with Ni-ScSZ anode
Kishimoto H, Yamaji K, Horita T, Xiong YP, Sakai N, Brito ME, Yokokawa H |
| 72 - 77 |
Broadband dielectric spectroscopic characterization of Nafion (R) chemical degradation
Rhoades DW, Hassan MK, Osborn SJ, Moore RB, Mauritz KA |
| 78 - 82 |
Direct ESR and spin trapping methods for the detection and identification of radical fragments in Nafion membranes and model compounds exposed to oxygen radicals
Danilczuk M, Bosnjakovic A, Kadirov MK, Schlick S |
| 83 - 88 |
Studies of heteropoly acid/polyvinylidenedifluoride-hexafluoroproylene composite membranes and implication for the use of heteropoly acids as the proton conducting component in a fuel cell membrane
Malers JL, Sweikart MA, Horan JL, Turner JA, Herring AM |
| 89 - 93 |
Effect of platinum amount in carbon supported platinum catalyst on performance of polymer electrolyte membrane fuel cell
Cho YH, Park HS, Cho YH, Jung DS, Park HY, Sung YE |
| 94 - 99 |
The United States Department of Energy's high temperature, low relative humidity membrane program
Garland NL, Kopasz JP |
| 100 - 107 |
Small stack performance of intermediate temperature-operating solid oxide fuel cells using stainless steel interconnects and anode-supported single cell
Bae J, Lim S, Jee H, Kim JH, Yoo YS, Lee T |
| 108 - 114 |
Membranes based on basic polymers and perfluorinated acids for hotter and drier fuel cell operating conditions
Larson JM, Hamrock SJ, Haugen GM, Pham P, Lamanna WM, Moss AB |
| 115 - 120 |
A novel integration approach for combining the components to minimize a micro-fuel cell
Lee CY, Chuang CW |
| 121 - 131 |
The advanced energy initiative
Milliken J, Joseck F, Wang M, Yuzugullu E |
| 133 - 144 |
Recent advances in activity and durability enhancement of Pt/C catalytic cathode in PEMFC - Part I. Physico-chemical and electronic interaction between Pt and carbon support, and activity enhancement of Pt/C catalyst
Yu XW, Ye SY |
| 145 - 154 |
Recent advances in activity and durability enhancement of Pt/C catalytic cathode in PEMFC - Part II: Degradation mechanism and durability enhancement of carbon supported platinum catalyst
Yu XW, Ye SY |
| 155 - 162 |
Transient phenomena in a PEMFC during the start-up of gas feeding observed with a 97-fold segmented cell
Siroma Z, Fujiwara N, Loroi T, Yamazaki S, Senoh H, Yasuda K, Tanimoto K |
| 163 - 171 |
Polybenzimidazole-membrane-based PEM fuel cell in the temperature range of 120-200 degrees C
Zhang JL, Tang YH, Song CJ, Zhang JJ |
| 172 - 179 |
High-temperature fuel cell membranes based on mechanically stable para-ordered polybenzimidazole prepared by direct casting
Kim TH, Lim TW, Lee JC |
| 180 - 188 |
Electrooxidations of ethanol, acetaldehyde and acetic acid using PtRuSn/C catalysts prepared by modified alcohol-reduction process
Wu G, Swaidan R, Cui GF |
| 189 - 197 |
Synthesis and electrochemistry of Li3MnO4: Mn in the +5 oxidation state
Saint JA, Doeff MM, Reed J |
| 198 - 208 |
A membraneless microscale fuel cell using non-noble catalysts in alkaline solution
Sung W, Choi JW |
| 209 - 214 |
Temperature gradients measurements within a segmented H-2/air PEM fuel cell
Abdullah AM, Okajima T, Mohammad AM, Kitamura F, Ohsaka T |
| 215 - 219 |
Synthesis and characterization of cross-linked poly (ether sulfone) for a fuel cell membrane
Heo KB, Lee HJ, Kim HJ, Kim BS, Lee SY, Cho E, Oh IH, Hong SA, Lim TH |
| 220 - 224 |
Iron phthalocyanine as a cathode catalyst for a direct borohydride fuel cell
Ma JF, Wang J, Liu YN |
| 225 - 228 |
Neutron images of the through-plane water distribution of an operating PEM fuel cell
Hussey DS, Jacobson DL, Arif M, Owejan JP, Gagliardo JJ, Trabold TA |
| 229 - 234 |
Kinetics of oxygen reduction reaction on nanosized Pd electrocatalyst in acid media
Salvador-Pascual JJ, Citalan-Cigarroa S, Solorza-Feria O |
| 235 - 245 |
Modeling of an anode-supported Ni-YSZ vertical bar Ni-ScSZ vertical bar ScSZ vertical bar LSM-ScSZ multiple layers SOFC cell - Part I. Experiments, model development and validation
Shi YX, Cai NS, Li C, Bao C, Croiset E, Qian JQ, Hu Q, Wang SR |
| 246 - 252 |
Modeling of an anode-supported Ni-YSZ vertical bar Ni-ScSZ vertical bar ScSZ vertical bar LSM-ScSZ multiple layers SOFC cell - Part II. Simulations and discussion
Shi YX, Cai NS, Li C, Bao C, Croiset E, Qian JQ, Hu Q, Wang SR |
| 253 - 264 |
Numerical study on PEMFC's geometrical parameters under different humidifying conditions
Matamoros L, Bruggemann D |
| 265 - 277 |
Numerical study of cell performance and local transport phenomena in PEM fuel cells with various flow channel area ratios
Wang XD, Duan YY, Yan WM |
| 278 - 286 |
Preparation and operation of gas diffusion electrodes for high-temperature proton exchange membrane fuel cells
Pan C, Li QF, Jensen JO, He RH, Cleemann LN, Nilsson MS, Bjerrum NJ, Zeng QX |
| 287 - 295 |
Dynamic behaviour of liquid water emerging from a GDL pore into a PEMFC gas flow channel
Zhu X, Sui PC, Djilali N |
| 296 - 307 |
Performance analysis of a SOFC under direct internal reforming conditions
Janardhanan VM, Heuveline V, Deutschmann O |
| 308 - 323 |
Novel solid oxide fuel cell system controller for rapid load following
Mueller F, Jabbari F, Gaynor R, Brouwer J |
| 324 - 333 |
Thermal analysis and optimization of a portable, edge-air-cooled PEFC stack
Fluckiger R, Tiefenauer A, Ruge M, Aebi C, Wokaun A, Buchi FN |
| 334 - 345 |
Diffusive resistance analysis in fuel cells - Part 1. Some theoretical considerations
Costa P, Bosio B |
| 346 - 357 |
Diffusive resistance analysis in fuel cells - Part 2. Some methods and examples
Costa P, Bosio B |
| 358 - 362 |
The mathematical expression for kinetics of electrophoretic deposition and the effects of applied voltage
Ciou SJ, Fung KZ, Chiang KW |
| 363 - 367 |
In situ diagnosis of micrometallic proton exchange membrane fuel cells using microsensors
Lee CY, Wu GW, Hsieh CL |
| 368 - 375 |
Characterization of water gas shift reaction in association with carbon dioxide sequestration
Chen WH, Jheng JG |
| 376 - 378 |
Evaluation of the hydrogen storage behavior of a LiNH2+MgH2 system with 1 : 1 ratio
Osborn W, Markmaitree T, Shaw LL |
| 379 - 387 |
CoFe2O4 and NiFe2O4 synthesized by sol-gel procedures for their use as anode materials for Li ion batteries
Lavela P, Tirado JL |
| 388 - 394 |
NiSb2 as negative electrode for Li-ion batteries: An original conversion reaction
Villevieille C, Ionica-Bousquet CM, Ducourant B, Jumas JC, Monconduit L |
| 395 - 403 |
Butylene sulfite as a film-forming additive to propylene carbonate-based electrolytes for lithium ion batteries
Chen RJ, Wu F, Li L, Guan YB, Qiu XP, Chen S, Li YJ, Wu SX |
| 404 - 409 |
Surface layer formed on silicon thin-film electrode in lithium bis(oxalato) borate-based electrolyte
Choi NS, Yew KH, Kim H, Kim SS, Choi WU |
| 410 - 415 |
Synthesis of spinel LiMn2O4 nanoparticles through one-step hydrothermal reaction
Jiang CH, Dou SX, Liu HK, Ichihara M, Zhou HS |
| 416 - 421 |
Lithium-ion batteries with high charge rate capacity: Influence of the porous separator
Djian D, Alloin F, Martinet S, Lignier H, Sanchez JY |
| 422 - 427 |
WO3 pillar-type and helical-type thin film structures to be used in microbatteries
Figueroa R, Cruz TGS, Gorenstein A |
| 428 - 434 |
A numerical model for thermoelectric generator with the parallel-plate heat exchanger
Yu JL, Zhao H |
| 435 - 445 |
Study the effect of conductive fillers on a secondary Zn electrode based on ball-milled ZnO and Ca(OH)(2) mixture powders
Yang CC, Chien WC, Wang CL, Wu CY |
| 446 - 450 |
Hydrogen-induced phase transitions in RNi3 and RY2Ni9 (R = La, Ce) compounds
Zhang J, Fang F, Zheng SY, Zhu J, Chen GR, Sun DL, Latroche M, Percheron-Guegan A |
| 451 - 459 |
Synthesis and characterization of tin oxide/carbon aerogel composite electrodes for electrochemical supercapacitors
Hwang SW, Hyun SH |
| 460 - 467 |
Textural and electrochemical characterization of porous carbon nanofibers as electrodes for supercapacitors
Huang CW, Wu YT, Hu CC, Li YY |
| 468 - 475 |
Ageing behaviour of electrochemical double layer capacitors Part I. Experimental study and ageing model
Bohlen O, Kowal J, Sauer DU |
| 476 - 480 |
Electrochemical properties of ultra-long, aligned, carbon nanotube array electrode in organic electrolyte
Zhang H, Cao GP, Yang YS |
| 481 - 486 |
Preparation and characterization of carbonaceous materials containing nitrogen as electrochemical capacitor
Kawaguchi M, Itoh A, Yagi S, Oda H |
| 487 - 492 |
N-methyl-N-propylpiperidinium bis(trifluoromethanesulphonyl) imide as an electrolyte for carbon-based double-layer capacitors
Lewandowski A, Olejniczak A |
