1 - 8 |
Preparation and properties of sulfonated poly(ether ether ketone)s (SPEEK)/polypyrrole composite membranes for direct methanol fuel cells Li XF, Liu CP, Xu D, Zhao CJ, Wang Z, Zhang G, Na H, Xing W |
9 - 20 |
Sol-gel-modified boron-doped diamond surfaces for methanol and ethanol electro-oxidation in acid medium Salazar-Banda GR, Suffredini HB, Calegaro ML, Tanimoto ST, Avaca LA |
21 - 29 |
Development of alkaline direct methanol fuel cells based on crosslinked PVA polymer membranes Yang CC, Chiu SJ, Chien WC |
30 - 40 |
Electrolytes for solid oxide fuel cells Fergus JW |
41 - 50 |
Novel composite anode with CO "Filter" layers for PEFC Wan CH, Zhuang QH, Lin CH, Lin MT, Shih C |
51 - 57 |
Preparation and evaluation of a proton exchange membrane based on crosslinkable sulfonated poly(ether ether ketone)s Zhong SL, Fu TZ, Dou ZY, Zhao CJ, Na H |
58 - 65 |
Effect of cathode separator structure on performance characteristics of free-breathing PEMFCs Tabe Y, Park SK, Kikuta K, Chikahisa T, Hishinuma Y |
66 - 73 |
Structure of Pt/C and PtRu/C catalytic layers prepared by plasma sputtering and electric performance in direct methanol fuel cells (DMFC) Caillard A, Coutanceau C, Brault P, Mathias J, Leger JM |
74 - 80 |
Regenerative, coal-based solid oxide fuel cell-electrolyzers Gopalan S, Ye GS, Pal UB |
81 - 93 |
Numerical analysis of relative humidity distribution in polymer electrolyte fuel cell stack including cooling water Inoue G, Yoshimoto T, Matsukuma Y, Minemoto M, Itoh H, Tsurumaki S |
94 - 104 |
Effect of flow pattern of gas and cooling water on relative humidity distribution in polymer electrolyte fuel cell Inoue G, Yoshimoto T, Matsukuma Y, Minemoto M, Itoh H, Tsurumaki S |
105 - 113 |
Preliminary evaluation of an alkaline chitosan-based membrane fuel cell Wan Y, Peppley B, Creber KAM, Bui VT, Halliop E |
114 - 123 |
DMFC employing a porous plate for an efficient operation at high methanol concentrations Abdelkareem MA, Nakagawa N |
124 - 131 |
Preparation of a carbon supported Pt catalyst using an improved organic sol method and its electrocatalytic activity for methanol oxidation Tang YW, Zhang LL, Wang YN, Zhou YM, Gao Y, Liu CP, Xing W, Lu TH |
132 - 140 |
Effects of annealing treatment and pH on preparation of citrate-stabilized PtRu/C catalyst Xu YQ, Xie XF, Guo JW, Wang SB, Wang YW, Mathur VK |
141 - 145 |
On the decay of Nafion proton conductivity at high temperature and relative humidity Casciola M, Alberti G, Sganappa M, Narducci R |
146 - 150 |
Preparation of La0.8Sr0.2Ga0.83Mg0.17O2.815 powders by microwave-induced poly(vinyl alcohol) solution polymerization Zhai WN, Ye C, Xia F, Xiao JZ, Dai L, Yang YF, Wang YQ |
151 - 159 |
Electrocatalysis of oxidation of hydrogen on platinum ordered intermetallic phases: Kinetic and mechanistic studies Innocente AF, Angelo ACD |
160 - 164 |
A novel catalyst support for DMFC: Onion-like fullerenes Xu BS, Yang XW, Wang XM, Guo JJ, Liu XG |
165 - 167 |
An ammonia fuel cell using a mixed ionic and electronic conducting electrolyte Maffei N, Pelletier L, Charland JP, McFarlan A |
168 - 172 |
Novel carbon supported hollow Pt nanospheres for methanol electrooxidation Zhao J, Chen WX, Zheng YF, Li X |
173 - 176 |
A study of oxygen reduction on improved Pt-WC/C electrocatalysts Nie M, Shen PK, Wu M, Wei ZD, Meng H |
177 - 179 |
A carbon-supported Pd-P catalyst as the anodic catalyst in a direct formic acid fuel cell Zhang LL, Tang YW, Bao JC, Lu TH, Li C |
180 - 185 |
Montmorillonite functionalized with perfluorinated sulfonic acid for proton-conducting organic-inorganic composite membranes Kim Y, Lee JS, Rhee CH, Kim HK, Chang H |
186 - 191 |
Using Pt sols to prepare low Pt-loading electrodes for polymer electrolyte fuel cells Khan MR, Lin SD |
192 - 197 |
Influence of anode diffusion layer properties on performance of direct borohydride fuel cell Park KT, Jung UH, Jeong SU, Kim SH |
198 - 206 |
High performance direct ammonia solid oxide fuel cell Fournier GGM, Cumming IW, Hellgardt K |
207 - 214 |
A novel Nylon-6-S316L fiber compound material for injection molded PEM fuel cell bipolar plates Kuo JK, Chen CK |
215 - 227 |
Control-oriented modelling and experimental study of the transient response of a high-temperature polymer fuel cell Zenith F, Seland F, Kongstein OE, Borresen B, Tunold R, Skogestad S |
228 - 238 |
In-plane and through-plane gas permeability of carbon fiber electrode backing layers Gostick JT, Fowler MW, Pritzker MD, Ioannidis MA, Behra LM |
239 - 245 |
Experimental characterization and modeling of commercial polybenzimidazole-based MEA performance Korsgaard AR, Refshauge R, Nielsen MP, Bang M, Kaer SK |
246 - 254 |
Optimization of key parameters in the proton exchange membrane fuel cell Lin HH, Cheng CH, Soong CY, Chen F, Yan WM |
255 - 261 |
Fabrication and testing of a miniature H-2/O-2 and MeOH/O-2 fuel cell Apblett C, Ingersoll D, Atanassov P, Maricle D, Sarangapani S |
262 - 270 |
Characterization of the operational parameters of a H-2/air micro PEMFC with different flow fields by impedance spectroscopy Hsieh SS, Yang SH, Feng CL |
271 - 278 |
PEM fuel cell membrane hydration measurement by neutron imaging Ludlow DJ, Calebrese CM, Yu SH, Dannehy CS, Jacobson DL, Hussey DS, Arif M, Jensen MK, Eisman GA |
279 - 285 |
Preparation and properties of ceramic interconnecting materials, La0.7Ca0.3CrO3-delta doped with GDC for IT-SOFCs Zhou XL, Ma JJ, Deng FJ, Meng GY, Liu XQ |
286 - 293 |
Spatially resolved optical measurements of water partial pressure and temperature in a PEM fuel cell under dynamic operating conditions Basu S, Renfro MW, Cetegen BM |
294 - 301 |
Corrosion behavior of 316L stainless steel and Zr75Ti25 bulk amorphous alloy in simulated PEMFC anode environment in a solution containing 12.5 ppm H2SO4+1.8 ppm HF at 25 and 80 degrees C Jin SZ, Ghali E, Morales AT |
302 - 308 |
Fuel cell hardware-in-loop Moore RM, Hauer KH, Randolf G, Virji M |
309 - 315 |
Preparation and properties of high performance nanocomposite bipolar plate for fuel cell Yen CY, Liao SH, Lin YF, Hung CH, Lin YY, Ma CCM |
316 - 326 |
Parameter setting and analysis of a dynamic tubular SOFC model Jiang W, Fang RX, Khan JA, Dougal RA |
327 - 339 |
Effects of channel geometrical configuration and shoulder width on PEMFC performance at high current density Ahmed DH, Sung HJ |
340 - 355 |
Flow distribution in proton exchange membrane fuel cell stacks Chang PAC, St-Pierre J, Stumper J, Wetton B |
356 - 368 |
Transient operation and shape optimization of a single PEM fuel cell Chen S, Ordonez JC, Vargas JVC, Gardolinski JEF, Gomes MAB |
369 - 379 |
Design, fabrication, and initial testing of a miniature PEM fuel cell with micro-scale pyrolyzed carbon fluidic plates Park BY, Madou MJ |
380 - 387 |
Performance analysis of sulfonated PPTA polymers as potential fuel cell membranes Every HA, Janssen GJM, Sitters EF, Mendes E, Picken SJ |
388 - 399 |
Model-based condition monitoring of PEM fuel cell using Hotelling T-2 control limit Xue X, Tang J, Sammes N, Ding Y |
400 - 414 |
Model development for a SOFC button cell using H2S as fuel Monder DS, Nandakumar K, Chuang KT |
415 - 425 |
Cross-leakage flow between adjacent flow channels in PEM fuel cells Kanezaki T, Li XG, Baschuk JJ |
426 - 435 |
A three-dimensional PEM fuel cell model with consistent treatment of water transport in MEA Meng H |
436 - 443 |
Measurement of the interface adhesion of solid oxide fuel cells by indentation Xie YS, Zhang XG, Robertson M, Maric R, Ghosh D |
444 - 459 |
Effect of flow and temperature distribution on the performance of a PEM fuel cell stack Park J, Li XG |
460 - 463 |
Sodium silicate/graphite conductive composite bipolar plates for proton exchange membrane fuel cells Shen CH, Pan M, Yuan RZ |
464 - 468 |
Gel-cast anode substrates for solid oxide fuel cells Huang WL, Zhu QS, Xie ZH |
469 - 473 |
Diagnostic tool to detect liquid water removal in the cathode channels of proton exchange membrane fuel cells Ma HP, Zhang HM, Hu J, Cai YH, Yi BL |
474 - 479 |
A bi-functional micro-porous layer with composite carbon black for PEM fuel cells Wang XL, Zhang HM, Zhang JL, Xu HF, Zhu XB, Chen J, Yi BL |
480 - 485 |
A study on sintering aids for Sm0.2Ce0.8O1.9 electrolyte Zhang XG, Deces-Petit C, Yick S, Robertson M, Kesler O, Maric R, Ghosh D |
486 - 491 |
Performance of the gold-plated titanium bipolar plates for the light weight PEM fuel cells Wang SH, Peng J, Lui WB, Zhang JS |
492 - 496 |
Template preparation of Pt-Ru and Pt nanowire array electrodes on a Ti/Si substrate for methanol electro-oxidation Zhao GY, Xu CL, Guo DJ, Li H, Li HL |
497 - 501 |
Membrane electrode assembly for passive direct methanol fuel cells Kim H, Oh J, Kim J, Chang H |
502 - 512 |
Rapid self-start of polymer electrolyte fuel cell stacks from subfreezing temperatures Ahluwalia RK, Wang X |
513 - 520 |
Analysis of PEMFC freeze degradation at-20 degrees C after gas purging Hou JB, Yu HM, Zhang SS, Sun SC, Wang HW, Yi BL, Ming PW |
521 - 531 |
Durability study of proton exchange membrane fuel cells under dynamic testing conditions with cyclic current profile Liu D, Case S |
532 - 540 |
Direct formic acid fuel cell portable power system for the operation of a laptop computer Miesse CM, Jung WS, Jeong KJ, Lee JK, Lee J, Han J, Yoon SP, Nam SW, Lim TH, Hong SA |
541 - 546 |
Proton conducting composite membranes from sulfonated polyethersulfone Cardo and phosphotungstic acid for fuel cell application Li L, Wang YX |
547 - 552 |
Studies of performance degradation of a high temperature PEMFC based on H3PO4-doped PBI Liu G, Zhang HM, Hu JW, Zhai YF, Xu DY, Shao ZG |
553 - 562 |
Performance predictions of a tubular SOFC operating on a partially reformed JP-8 surrogate Gupta GK, Marda JR, Dean AM, Colclasure AM, Zhu HY, Kee RJ |
563 - 571 |
On-board removal of CO and other impurities in hydrogen for PEM fuel cell applications Huang CP, Jiang RC, Elbaccouch M, Muradov N, Fenton JM |
572 - 578 |
MEMS-based micro-fuel processor for application in a cell phone Kundu A, Jang JH, Lee HR, Kim SH, Gil JH, Jung CR, Oh YS |
579 - 588 |
A study of the surface properties and steam reforming catalytic activity of nickel powders impregnated by n-alkanethiols Rakass S, Oudghiri-Hassani H, Abatzoglou N, Rowntree P |
589 - 596 |
High power-density single-chamber fuel cells operated on methane Shao ZP, Mederos J, Chueh WC, Haile SM |
597 - 605 |
A reforming system for co-generation of hydrogen and mechanical work from methanol Lyubovsky M, Walsh D |
606 - 613 |
Electrochemical properties of LiNi0.5Mn1.5O4 films prepared by spin-coating deposition Arrebola JC, Caballero A, Hernan L, Melero M, Morales J, Castellon ER |
614 - 619 |
Asymmetric sulfonium-based molten salts with TFSI- or PF6- anion as novel electrolytes Yang L, Zhang ZX, Gao XH, Zhang HQ, Mashita K |
620 - 628 |
Carbon nanotube/felt composite electrodes without polymer binders Rosolen JM, Matsubara EY, Marchesin MS, Lala SM, Montoro LA, Tronto S |
629 - 635 |
The effects of extra Li content, synthesis method, sintering temperature on synthesis and electrochemistry of layered LiNi1/3Mn1/3Co1/O-3(2) Zhang LQ, Wang XQ, Muta T, Li DC, Noguchi H, Yoshio M, Ma RZ, Takada K, Sasaki T |
636 - 643 |
Synthesis and physicochemical properties of LiAl0.05Mn1.95O4 cathode material by the ultrasonic-assisted sol-gel method Yi TF, Hu XG, Gao K |
644 - 650 |
Investigation and improvement on the storage property of LiNi0.8Co0.2O2 as a cathode material for lithium-ion batteries Liu HS, Yang Y, Zhang JJ |
651 - 657 |
Synthesis of Li3V2(PO4)(3) with high performance by optimized solid-state synthesis routine Fu P, Zhao YM, Dong YZ, An XN, Shen GP |
658 - 662 |
Pure ionic liquid electrolytes compatible with a graphitized carbon negative electrode in rechargeable lithium-ion batteries Ishikawa M, Sugimoto T, Kikuta M, Ishiko E, Kono M |
663 - 666 |
Studies on capacity fading mechanism of graphite anode for Li-ion battery Fu LJ, Endo K, Sekine K, Takamura T, Wu YP, Wu HQ |
667 - 672 |
Crystal chemistry and electrochemical characterization of layered LiNi0.5-yCo0.5-yMn2yO2 and LiCo0.5-yMn0.5-yNi2yO2 (0 <= 2y <= 1) cathodes Choi J, Manthiram A |
673 - 678 |
Performance of carbon-fiber-containing LiFePO4 cathodes for high-power applications Thorat IV, Mathur V, Harb JN, Wheeler DR |
679 - 684 |
Copper-vanadium mixed oxide thin film electrodes Souza EA, dos Santos AO, Cardoso LP, Tabacniks MH, Landers R, Gorenstein A |
685 - 689 |
Advanced, lithium batteries based on high-performance composite polymer electrolytes Croce F, Sacchetti S, Scrosati B |
690 - 695 |
New low temperature electrolytes with thermal runaway inhibition for lithium-ion rechargeable batteries Mandal BK, Padhi AK, Shi Z, Chakraborty S, Filler R |
696 - 705 |
Effects. of cell size and macrosegregation on the corrosion behavior of a dilute Pb-Sb alloy Rosa DM, Spinelli JE, Osorio WR, Garcia A |
706 - 712 |
Behavior of Dinonylphenol Phosphate Ester and its influence on the oxidation of a Zn anode in alkaline solution Qu DG |
713 - 718 |
Crystallographic and electrochemical characteristics of icosahedral quasicrysyalline Ti45-xZr35-xNi17+2xCu3 (x=0-8) powders Liu BZ, Wu YM, Wang LM |
719 - 726 |
An electromechanical transfer circuit to measure individual battery voltages in series packs Hande A, Kamalasadan S |
727 - 734 |
Electrodeposition synthesis and electrochemical properties of nanostructured gamma-MnO2 films Chou SL, Cheng FY, Chen J |
735 - 737 |
A novel galvanostatic polymerization for high specific capacitance poly(3-methylthiophene) in ionic liquid Arbizzani C, Soavi F, Mastragostino M |
738 - 742 |
Cresol-formaldehyde based carbon aerogel as electrode material for electrochemical capacitor Zhu YD, Hu HQ, Li WC, Zhang XY |
743 - 747 |
Carbon nanofiber and PEDOT-PSS bilayer systems as electrodes for symmetric and asymmetric electrochemical capacitor cells Gallegos AKC, Rincon ME |