| 447 - 453 |
Synthesis and characterization of cross-linked quaternized poly(vinyl alcohol)/chitosan composite anion exchange membranes for fuel cells
Xiong Y, Liu QL, Zhang QG, Zhu AM |
| 454 - 463 |
Zeolite beta-filled chitosan membrane with low methanol permeability for direct methanol fuel cell
Wang YB, Yang D, Zheng XH, Jiang ZY, Li J |
| 464 - 470 |
Preparation and characterization of Ni-plated polytetrafluoroethylene plate as an electrode for alkaline fuel cell
Kinoshita H, Yonezawa S, Kim JH, Kawai M, Takashima M, Tsukatani T |
| 471 - 478 |
Synthesis and assessment of La0.8Sr0.2ScyMn1-yO3-delta as cathodes for solid-oxide fuel cells on scandium-stabilized zirconia electrolyte
Gu HX, Zheng Y, Ran R, Shao ZP, Jin WQ, Xu NP, Ahn J |
| 479 - 484 |
Stable, easily sintered BaCe0.5Zr0.3Y0.16Zn0.04O3-delta electrolyte-based protonic ceramic membrane fuel cells with Ba0.5Sr0.5Zn0.2Fe0.8O3-delta perovskite cathode
Lin B, Hu MJ, Ma JJ, Jiang YZ, Tao SW, Meng GY |
| 485 - 490 |
Electrochemical and microstructural analysis of nickel-yttria-stabilized zirconia electrode operated in phosphorus-containing syngas
Zhi MJ, Chen XQ, Finklea H, Celik I, Wu NQQ |
| 491 - 497 |
Direct methanol fuel cell operation with pre-stretched recast Nafion (R)
Lin J, Wu PH, Wycisk R, Trivisonno A, Pintauro PN |
| 498 - 505 |
Electrical properties of Mg-doped Gd0.1Ce0.9O1.95 under different sintering conditions
Li B, Wei X, Pan W |
| 506 - 511 |
Electrochemical characteristics of an La0.6Sr0.4Co0.2Fe0.8O3-La0.8Sr0.2MnO3 multi-layer composite cathode for intermediate-temperature solid oxide fuel cells
Jin C, Liu J, Guo WM, Zhang YH |
| 512 - 517 |
Use of La0.75Sr0.25Cr0.5Mn0.5O3 materials in composite anodes for direct ethanol solid oxide fuel cells
Ye XF, Wang SR, Wang ZR, Hu Q, Sun XF, Wen TL, Wen ZY |
| 518 - 523 |
Effect of CaO concentration on enhancement of grain-boundary conduction in gadolinia-doped ceria
Cho PS, Lee SB, Cho YH, Kim DY, Park HM, Lee JH |
| 524 - 532 |
Dissolution and migration of platinum after long-term operation of a polymer electrolyte fuel cell under various conditions
Kim L, Chung CG, Sung YW, Chung JS |
| 533 - 538 |
Enzymatic biofuel cell based on electrodes modified with lipid liquid-crystalline cubic phases
Nazaruk E, Smolinski S, Swatko-Ossor M, Ginalska G, Fiedurek J, Rogalski J, Bilewicz R |
| 539 - 543 |
The effect of various acids treatment on the purification and electrochemical hydrogen storage of multi-walled carbon nanotubes
Reyhani A, Mortazavi SZ, Golikand AN, Moshfegh AZ, Mirershadi S |
| 544 - 550 |
Cube-type micro SOFC stacks using sub-millimeter tubular SOFCs
Suzuki T, Funahashi Y, Yamaguchi T, Fujishiro Y, Awano M |
| 551 - 556 |
Preparation and characterization of nanocomposite membranes made of poly(2,6-dimethyl-1,4-phenylene oxide) and montmorillonite for direct methanol fuel cells
Hasani-Sadrabadi MM, Emami SH, Moaddel H |
| 557 - 563 |
Non-platinum cathode catalyst layer composition for single membrane electrode assembly proton exchange membrane fuel cell
Olson TS, Chapman K, Atanassov P |
| 564 - 570 |
Molecular speciation of sulfur in solid oxide fuel cell anodes with X-ray absorption spectroscopy
Braun A, Janousch M, Sfeir J, Kiviaho J, Noponen M, Huggins FE, Smith MJ, Steinberger-Wilckens R, Holtappels P, Graule T |
| 571 - 575 |
Surface modification of a natural graphite/phenol formaldehyde composite plate with expanded graphite
Li DJ, Wang YX, Xu L, Lu J, Wu QA |
| 576 - 580 |
The influence of metal ions on the conductivity of Nafion 112 in polymer electrolyte membrane fuel cell
Wang HL, Turner JA |
| 581 - 585 |
Characterization of Pr1-xSrxCo0.8Fe0.2O3-delta (0.2 <= x <= 0.6) cathode materials for intermediate-temperature solid oxide fuel cells
Meng XW, Lu SQ, Ji Y, Wei T, Zhang YL |
| 586 - 589 |
Nano-structured (La, Sr)(Co, Fe)O-3+YSZ composite cathodes for intermediate temperature solid oxide fuel cells
Chen J, Liang FL, Liu LN, Jiang SP, Chi B, Pu J, Li J |
| 590 - 594 |
Electrochemical characterisation of air electrodes based on La0.6Sr0.4CoO3 and carbon nanotubes
Thiele D, Zuttel A |
| 595 - 599 |
Dependence of cell resistivity on electrolyte thickness in solid oxide fuel cells
Jiang SP |
| 600 - 603 |
Modification of polyol process for synthesis of highly platinum loaded platinum-carbon catalysts for fuel cells
Oh HS, Oh JG, Kim H |
| 604 - 608 |
Influence of preparation process on non-noble metal-based composite electrocatalysts for oxygen reduction reaction
Deng XY, Wang X, Ma ZFF |
| 609 - 618 |
Two-phase modeling of gas purge in a polymer electrolyte fuel cell
Sinha PK, Wang CY |
| 619 - 628 |
Degradation analysis and modeling of reinforced catalyst coated membranes operated under OCV conditions
Kundu S, Fowler MW, Simon LC, Abouatallah R, Beydokhti N |
| 629 - 642 |
Numerical investigation of the effect of cathode catalyst layer structure and composition on polymer electrolyte membrane fuel cell performance
Kamarajugadda S, Mazumder S |
| 643 - 650 |
Gas-liquid two-phase flow patterns in parallel channels for fuel cells
Zhang LF, Bi HT, Wilkinson DP, Stumper J, Wang HJ |
| 651 - 659 |
Oxidation and electrical behavior of nickel/lanthanum chromite-coated stainless steel interconnects
Shaigan N, Ivey DG, Chen WX |
| 660 - 667 |
Investigation of iron-chromium-niobium-titanium ferritic stainless steel for solid oxide fuel cell interconnect applications
Yang ZG, Xia GG, Wang CM, Nie ZM, Templeton J, Stevenson JW, Singh P |
| 668 - 673 |
Importance of pressure gradient in solid oxide fuel cell electrodes for modeling study
Ni M, Leung DYC, Leung MKH |
| 674 - 677 |
Rapid fabrication of microfluidic polymer electrolyte membrane fuel cell in PDMS by surface patterning of perfluorinated ion-exchange resin
Song YA, Batista C, Sarpeshkar R, Han JY |
| 678 - 681 |
A liquid-gas phase mixed-reactant fuel cell with a RuSeW cathode electrocatalyst
Cheng H, Yuan W, Scott K |
| 682 - 686 |
Thermodynamic analysis of ammonia fed solid oxide fuel cells: Comparison between proton-conducting electrolyte and oxygen ion-conducting electrolyte
Ni M, Leung DYC, Leung MKH |
| 687 - 692 |
Electrochemical modeling of ammonia-fed solid oxide fuel cells based on proton conducting electrolyte
Ni M, Leung DYC, Leung MKH |
| 693 - 700 |
Enhanced hydrogen absorption kinetics for hydrogen storage using Mg flakes as compared to conventional spherical powders
Jeon KJ, Theodore A, Wu CY |
| 701 - 707 |
Synthesis and high photocatalytic hydrogen production of SrTiO3 nanoparticles from water splitting under UV irradiation
Liu Y, Xie L, Li Y, Yang R, Qu JL, Li YQ, Li XG |
| 708 - 712 |
Two-dimensional simulation and critical efficiency analysis of high-temperature steam electrolysis system for hydrogen production
Liu MY, Yu B, Xu JM, Chen J |
| 713 - 716 |
Novel zeolite-supported rhodium catalysts for ethanol steam reforming
Campos-Skrobot FC, Rizzo-Domingues RCP, Fernandes-Machado NRC, Cantao MP |
| 717 - 723 |
Electrospinning synthesis of C/Fe3O4 composite nanofibers and their application for high performance lithium-ion batteries
Wang L, Yu Y, Chen PC, Zhang DW, Chen CH |
| 724 - 729 |
A rechargeable lithium metal battery operating at intermediate temperatures using molten alkali bis(trifluoromethylsulfonyl)amide mixture as an electrolyte
Watarai A, Kubota K, Yamagata M, Goto T, Nohira T, Hagiwara R, Ui K, Kumagai N |
| 730 - 740 |
Fabrication and characterization of three-dimensional carbon electrodes for lithium-ion batteries
Teixidor GT, Zaouk RB, Park BY, Madou MJ |
| 741 - 748 |
Effect of FePO4 coating on electrochemical and safety performance of LiCoO2 as cathode material for Li-ion batteries
Li G, Yang ZX, Yang WS |
| 749 - 754 |
Structural stability of chemically delithiated layered (1-z)Li[Li1/3Mn2/3]O-2-zLi[Mn0.5-yNi0.5-yCo2y]O-2 solid solution cathodes
Wu Y, Manthiram A |
| 755 - 760 |
Effects of cyclic carbonates as additives to gamma-butyrolactone electrolytes for rechargeable lithium cells
Kinoshita S, Kotato M, Sakata Y, Ue M, Watanabe Y, Morimoto H, Tobishima S |
| 761 - 765 |
Synthesis and electrochemical properties of Li(Ni0.8Co0.1Mn0.1)O-2 cathode material: Ex situ structural analysis by Raman scattering and X-ray diffraction at various stages of charge-discharge process
Saavedra-Arias JJ, Karan NK, Pradhan DK, Kumar A, Nieto S, Thomas R, Katiyar RS |
| 766 - 770 |
Structural and thermal properties of LiNi0.6-xMgxCo0.25Mn0.15O2 cathode materials
Liao PY, Duh JG, Sheu HS |
| 771 - 782 |
II. A combined model for determining capacity usage and battery size for hybrid and plug-in hybrid electric vehicles
Albertus P, Couts J, Srinivasan V, Newman J |
| 783 - 791 |
Charge regimes for valve-regulated lead-acid batteries: Performance overview inclusive of temperature compensation
Wong YS, Hurley WG, Wolfle WH |
| 792 - 798 |
Influence of acceptor moiety in triphenylamine-based dyes on the properties of dye-sensitized solar cells
Xu W, Pei J, Shi JF, Peng SJ, Chen J |
| 799 - 804 |
Electrochemical oxidation behavior of Mg-Li-Al-Ce-Zn and Mg-Li-Al-Ce-Zn-Mn in sodium chloride solution
Cao DX, Wu L, Wang GL, Lv YZ |
| 805 - 811 |
Process for the recycling of alkaline and zinc-carbon spent batteries
Ferella F, De Michelis I, Veglio F |
| 812 - 816 |
Solid-state oligomer electrolyte with amine-acid interaction for dye-sensitized solar cells
Park JH, Choi KJ, Kang SW, Kang YS, Kim J, Lee SS |
| 817 - 817 |
A study of steam methanol reforming in a microreactor (vol 173, pg 458, 2007)
Suh JS, Lee MT, Greif R, Grigoropoulos CR |
