| 343 - 346 |
Stable BaCe0.5Zr0.3Y0.16Zn0.04O3-delta thin membrane prepared by in situ tape casting for proton-conducting solid oxide fuel cells
Zhang SQ, Bi L, Zhang L, Tao ZT, Sun WP, Wang HQ, Liu W |
| 347 - 352 |
Fabrication of bimetallic Pt-M (M = Fe, Co, and Ni) nanoparticle/carbon nanotube electrocatalysts for direct methanol fuel cells
Hsieh CT, Lin JY |
| 353 - 358 |
Kinetics of oxygen reduction reaction on Co-rich (core)-Pt-rich (shell)/C electrocatalysts
Lee MH, Do JS |
| 359 - 366 |
Activity of perovskite La1-xSrxMnO3 catalysts towards oxygen reduction in alkaline electrolytes
Tulloch J, Donne SW |
| 367 - 378 |
Comprehensive one-dimensional, semi-analytical, mathematical model for liquid-feed polymer electrolyte membrane direct methanol fuel cells
Kareemulla D, Jayanti S |
| 379 - 386 |
Elastic properties of Nafion, polybenzimidazole and poly [2,5-benzimidazole] membranes determined by AFM tip nano-indentation
Franceschini EA, Corti HR |
| 387 - 396 |
Osmium-ruthenium carbonyl clusters as methanol tolerant electrocatalysts for oxygen reduction
Borja-Arco E, Castellanos RH, Uribe-Godinez J, Altamirano-Gutierrez A, Jimenez-Sandoval O |
| 397 - 403 |
Syntheses and catalytic performances of Ag-Ni bi-metals
Tang CL, Li LP, Gao HB, Li GS, Qiu XQ, Liu J |
| 404 - 410 |
Enhanced electrochemical hydrogen storage by catalytic Fe-doped multi-walled carbon nanotubes synthesized by thermal chemical vapor deposition
Reyhani A, Mortazavi SZ, Moshfegh AZ, Golikand AN, Amiri M |
| 411 - 420 |
Hydrogen generation by hydrolysis of NaBH4 with efficient Co-P-B catalyst: A kinetic study
Patel N, Fernandes R, Miotello A |
| 421 - 426 |
Three-dimensional, gas phase fuel cell with a laccase biocathode
Borole AP, LaBarge S, Spott BA |
| 427 - 432 |
Improvement of methanol electro-oxidation activity of PtRu/C and PtNiCr/C catalysts by anodic treatment
Jeon MK, McGinn PJ |
| 433 - 446 |
Numerical investigations of effect of membrane electrode assembly structure on water crossover in a liquid-feed direct methanol fuel cell
Yang WW, Zhao TS |
| 447 - 452 |
Degradation of cathode current-collecting materials for anode-supported flat-tube solid oxide fuel cell
Kim JH, Song RH, Chung DY, Hyun SH, Shin DR |
| 453 - 457 |
(La-0.74 Bi0.10Sr0.16)MnO3-delta-Ce0.8Gd0.2O2-delta cathodes fabricated by ion-impregnating method for intermediate-temperature solid oxide fuel cells
Li JL, Wang SR, Wang ZR, Liu RZ, Ye XF, Sun XF, Wen TL, Wen ZY |
| 458 - 462 |
The study of Au/MoS2 anode catalyst for solid oxide fuel cell (SOFC) using H2S-containing syngas fuel
Xu ZR, Luo JL, Chuang KT |
| 463 - 467 |
Maximization of high-temperature proton exchange membrane fuel cell performance with the optimum distribution of phosphoric acid
Kwon Y, Kim TY, Yoo DY, Hong SG, Park JO |
| 468 - 474 |
High-resolution in-plane investigation of the water evolution and transport in PEM fuel cells
Hartnig C, Manke I, Kuhn R, Kleinau S, Goebbels J, Banhart J |
| 475 - 482 |
Control-oriented thermal management of solid oxide fuel cells based on a modified Takagi-Sugeno fuzzy model
Yang J, Li X, Mou HG, Jian L |
| 483 - 488 |
Stable, easily sintered Ca-Zn-doped YCrO3 as novel interconnect materials for co-fired yttrium-stabilized zirconia-based solid oxide fuel cells
Wang SL, Lin B, Dong YC, Fang DR, Ding HP, Liu XQ, Meng GY |
| 489 - 497 |
Single-phase ceramics with La1-xSrxGa1-yMgyO3-delta composition from precursors obtained by mechanosynthesis
Moure A, Castro A, Tartaj J, Moure C |
| 498 - 501 |
An analytical model of Nafion (TM) membrane humidifier for proton exchange membrane fuel cells
Park S, Oh IH |
| 502 - 506 |
MEA for alkaline direct ethanol fuel cell with alkali doped PBI membrane and non-platinum electrodes
Modestov AD, Tarasevich MR, Leykin AY, Filimonov VY |
| 507 - 514 |
The promoted effect of UV irradiation on preferential oxidation of CO in an H-2-rich stream over Au/TiO2
Dai WX, Zheng XP, Yang HY, Chen X, Wang XX, Liu P, Fu XZ |
| 515 - 520 |
Hydrogen production from E85 fuel with ceria-based catalysts
Swartz SL, Matter PH, Arkenberg GB, Holcomb FH, Josefik NM |
| 521 - 526 |
Advanced tubular solid oxide fuel cells with high efficiency for internal reforming of hydrocarbon fuels
Cheekatamarla PK, Finnerty CM, Du YH, Jiang J, Dong J, Dewald PG, Robinson CR |
| 527 - 531 |
Nickel-carbon nanocomposites prepared using castor oil as precursor: A novel catalyst for ethanol steam reforming
Carreno NLV, Garcia ITS, Raubach CW, Krolow M, Santos CCG, Probst LFD, Fajardo HV |
| 532 - 537 |
A low temperature electrolyte for primary Li/CFx batteries
Zhang SS, Foster D, Read J |
| 538 - 545 |
A modified ZrO2-coating process to improve electrochemical performance of Li(Ni1/3Co1/3Mn1/3)O-2
Huang YY, Chen JT, Ni JF, Zhou HH, Zhang XX |
| 546 - 551 |
Electrochemical properties of Li2ZrO3-coated silicon/graphite/carbon composite as anode material for lithium ion batteries
Li MQ, Qu MZ, He XY, Yu ZL |
| 552 - 557 |
Ternary Sn-Sb-Co alloy film as new negative electrode for lithium-ion cells
Tabuchi T, Hochgatterer N, Ogumi Z, Winter M |
| 558 - 563 |
Pyrrolidinium-based polymeric ionic liquids as mechanically and electrochemically stable polymer electrolytes
Pont AL, Marcilla R, De Meatza I, Grande H, Mecerreyes D |
| 564 - 569 |
Cycle life improvement of ZrO2-coated spherical LiNi1/3Co1/3Mn1/3O2 cathode material for lithium ion batteries
Hu SK, Cheng GH, Cheng MY, Hwang BJ, Santhanam R |
| 570 - 573 |
A new phosphate-based nonflammable electrolyte solvent for Li-ion batteries
Wu L, Song ZP, Liu LS, Guo XF, Kong LB, Zhan H, Zhou YH, Li ZY |
| 574 - 577 |
Improvement of cycle behaviour of SiO/C anode composite by thermochemically generated Li4SiO4 inert phase for lithium batteries
Veluchamy A, Doh CH, Kim DH, Lee JH, Lee DJ, Ha YH, Shin HM, Jin BS, Kim HS, Moon SI, Park CW |
| 578 - 582 |
High rate capability pure Sn-based nano-architectured electrode assembly for rechargeable lithium batteries
Bazin L, Mitra S, Taberna PL, Poizot P, Gressier M, Menu MJ, Barnabe A, Simon P, Tarascon JM |
| 583 - 587 |
Enhanced cycleability of LiCoO2 coated with vanadium oxides
Lee JW, Park SM, Kim HJ |
| 588 - 591 |
Morphology effect on the electrochemical performance of NiO films as anodes for lithium ion batteries
Huang XH, Tu JP, Xia XH, Wang XL, Xiang JY, Zhang L, Zhou Y |
| 592 - 600 |
Quantifying tortuosity in porous Li-ion battery materials
Thorat IV, Stephenson DE, Zacharias NA, Zaghib K, Harb JN, Wheeler DR |
| 601 - 605 |
Enhancement of discharge performance of Li/CFx cell by thermal treatment of CFx cathode material
Zhang SS, Foster D, Read J |
| 606 - 612 |
State-of-charge estimation of lead-acid batteries using an adaptive extended Kalman filter
Han J, Kim D, Sunwoo M |
| 613 - 616 |
New lead-acid battery for submersible vehicles
Kamenev Y, Lushina M, Yakovlev V |
| 617 - 620 |
Nanoporous H-sorbed carbon as anode of secondary cell
Jurewicz K, Frackowiak E, Beguin F |
| 621 - 626 |
Experimental study on low-temperature waste heat thermoelectric generator
Niu X, Yu JL, Wang SZ |
| 627 - 634 |
Characteristics of triphenylamine-based dyes with multiple acceptors in application of dye-sensitized solar cells
Yang CH, Chen HL, Chuang YY, Wu CG, Chen CP, Liao SH, Wang TL |
| 635 - 641 |
Influences of different TiO2 morphologies and solvents on the photovoltaic performance of dye-sensitized solar cells
Lee KM, Suryanarayanan V, Ho KC |
| 642 - 649 |
The UltraBattery-A new battery design for a new beginning in hybrid electric vehicle energy storage
Cooper A, Furakawa J, Lam L, Kellaway M |
