| 387 - 399 |
Review of the micro-tubular solid oxide fuel cell Part I. Stack design issues and research activities
Lawlor V, Griesser S, Buchinger G, Olabi AG, Cordiner S, Meissner D |
| 400 - 407 |
Zirconium doping effect on the performance of proton-conducting BaZryCe0.8-yY0.2O3-delta (0.0 <= y <= 0.8) for fuel cell applications
Guo YM, Lin Y, Ran R, Shao ZP |
| 408 - 415 |
Promoting effect of CeO2 in the electrocatalytic activity of rhodium for ethanol electro-oxidation
He Q, Mukerjee S, Shyam B, Ramaker D, Parres-Esclapez S, Illan-Gomez MJ, Bueno-Lopez A |
| 416 - 424 |
Basic evaluation of separator type specific phenomena of polymer electrolyte membrane fuel cell by the measurement of water condensation characteristics and current density distribution
Tabe Y, Kikuta K, Chikahisa T, Kozakai M |
| 425 - 430 |
Simulation experiments on the effect of freezing of carbon substrate catalyst
Kaito C, Kumamoto A, Shingu H |
| 431 - 440 |
Cathode reaction mechanism of porous-structured Sm0.5Sr0.5CoO3-delta and Sm0.5Sr0.5CoO3-delta/Sm0.2Ce0.8O1.9 for solid oxide fuel cells
Baek SW, Bae J, Yoo YS |
| 441 - 446 |
Enhancement of electrocatalytic activity of platinum for hydrogen oxidation reaction by sonochemically synthesized WC1-x nanoparticles
Kim J, Jang JH, Lee YH, Kwon YU |
| 447 - 453 |
Membrane electrode assembly with doped polyaniline interlayer for proton exchange membrane fuel cells under low relative humidity conditions
Cindrella L, Kannan AM |
| 454 - 461 |
Air plasma spray processing and electrochemical characterization of Cu-SDC coatings for use in solid oxide fuel cell anodes
Benoved N, Kesler O |
| 462 - 469 |
A proper amount of carbon nanotubes for improving the performance of Pt-Ru/C catalysts for methanol electro-oxidation
Chi CF, Yang MC, Weng HS |
| 470 - 476 |
Development of durable carbon black/titanium dioxide supported macrocycle catalysts for oxygen reduction reaction
Li XG, Liu CP, Xing W, Lu TH |
| 477 - 482 |
Controllable sulfonation of aromatic poly(arylene ether ketone)s containing different pendant phenyl rings
Li ZL, Liu XC, Chao DM, Zhang WJ |
| 483 - 487 |
A novel cesium hydrogen sulfate-zeolite inorganic composite electrolyte membrane for polymer electrolyte membrane fuel cell application
Piao JH, Liao SJ, Liang ZX |
| 488 - 494 |
Dependence of polymer electrolyte fuel cell performance on preparation conditions of slurry for catalyst layers
Komoda Y, Okabayashi K, Nishimura H, Hiromitsu M, Oboshi T, Usui H |
| 495 - 500 |
Controlled synthesis of mesoporous carbon modified by tungsten carbides as an improved electrocatalyst support for the oxygen reduction reaction
Zhu Q, Zhou SH, Wang XQ, Dai S |
| 501 - 506 |
Cyclic voltammetry and X-ray photoelectron spectroscopy studies of electrochemical stability of clean and Pt-modified tungsten and molybdenum carbide (WC and Mo2C) electrocatalysts
Weigert EC, Esposito DV, Chen JGG |
| 507 - 514 |
Novel sulfonated poly(arylene ether ketone) copolymers bearing carboxylic or benzimidazole pendant groups for proton exchange membranes
Lin HD, Zhao CJ, Cui ZM, Ma WJ, Fu TZ, Na H, Xing W |
| 515 - 522 |
Electrochemical analysis of polymer electrolyte membrane fuel cell operated with dry-air feed
Kim HT, Song KY, Reshetenko TV, Han SI, Kim TY, Cho SY, Min MK, Chai GS, Shin SC |
| 523 - 529 |
Effect of carbon fillers on properties of polymer composite bipolar plates of fuel cells
Lee JH, Jang YK, Hong CE, Kim NH, Li P, Lee HK |
| 530 - 540 |
Microstructure and polarization characteristics of anode supported tubular solid oxide fuel cell with co-precipitated and mechanically mixed Ni-YSZ anodes
Shikazono N, Sakamoto Y, Yamaguchi Y, Kasagi N |
| 541 - 546 |
Quaternized cardo polyetherketone anion exchange membrane for direct methanol alkaline fuel cells
Xiong Y, Liu QL, Zeng QH |
| 547 - 554 |
A performance and degradation study of Nafion 212 membrane for proton exchange membrane fuel cells
Fernandes AC, Ticianelli EA |
| 555 - 561 |
Ethanol oxidation on carbon supported (PtSn)(alloy)/SnO2 and (PtSnPd)(alloy)/SnO2 catalysts with a fixed Pt/SnO2 atomic ratio: Effect of the alloy phase characteristics
Antolini E, Colmati F, Gonzalez ER |
| 562 - 569 |
Sol-gel based sulfonic acid-functionalized silica proton conductive membrane
Kim H, Prakash S, Mustain WE, Kohl PA |
| 570 - 574 |
Titanium oxynitride films for a bipolar plate of polymer electrolyte membrane fuel cell prepared by inductively coupled plasma assisted reactive sputtering
Kim SY, Han DH, Kim JN, Lee JJ |
| 575 - 579 |
Effect of operating conditions on carbon corrosion in polymer electrolyte membrane fuel cells
Lim KH, Oh HS, Jang SE, Ko YJ, Kim HJ, Kim H |
| 580 - 584 |
Effect of O-2 concentration on performance of solid oxide fuel cells with V2O5 or Cu added (LaSr)(CoFe)O-3-(Ce,Gd)O2-x cathode with and without NO
Huang TJ, Chou CL |
| 585 - 588 |
A long-term degradation study of power generation characteristics of anode-supported solid oxide fuel cells using LaNi(Fe)O-3 electrode
Komatsu T, Watanabe K, Arakawa M, Arai H |
| 589 - 592 |
Low-temperature electrochemical characterization of dense ultra-thin lanthanum strontium cobalt ferrite (La0.6Sr0.4Co0.8Fe0.2O3) cathodes synthesized by RF-sputtering on nanoporous alumina-supported Y-doped zirconia membranes
Xiong H, Lai BK, Johnson AC, Ramanathan S |
| 593 - 597 |
Fe doping effects on phase stability and conductivity of La0.75Sr0.25Ga0.8Mg0.2O3-delta
Yoo JS, Lee S, Yu JH, Woo SK, Park H, Kim HG |
| 598 - 601 |
Synthesis of doped ceria-zirconia core-shell nanocomposites via sol-gel process
Li B, Wei X, Pan W |
| 602 - 606 |
Electrochemical performance of a glucose/oxygen microfluidic biofuel cell
Zebda A, Renaud L, Cretin M, Innocent C, Pichot F, Ferrigno R, Tingry S |
| 607 - 616 |
Effect of various coal contaminants on the performance of solid oxide fuel cells: Part I. Accelerated testing
Bao J, Krishnan GN, Jayaweera P, Perez-Mariano J, Sanjurjo A |
| 617 - 624 |
Effect of various coal contaminants on the performance of solid oxide fuel cells: Part II. ppm and sub-ppm level testing
Bao J, Krishnan GN, Jayaweera P, Lau KH, Sanjurjo A |
| 625 - 631 |
Experimental characterization of glass-ceramic seal properties and their constitutive implementation in solid oxide fuel cell stack models
Stephens EV, Vetrano JS, Koeppel BJ, Chou Y, Sun X, Khaleel MA |
| 632 - 638 |
Developing fuel map to predict the effect of fuel composition on the maximum efficiency of solid oxide fuel cells
Farhad S, Hamdullahpur F |
| 639 - 648 |
Direct measurement of current density under the land and channel in a PEM fuel cell with serpentine flow fields
Higier A, Liu HT |
| 649 - 655 |
Development of a passive direct methanol fuel cell (DMFC) twin-stack for long-term operation
Zhu YL, Liang JS, Liu C, Ma TL, Wang LD |
| 656 - 664 |
Model of a novel pressurized solid oxide fuel cell gas turbine hybrid engine
Burbank W, Witmer D, Holcomb F |
| 665 - 683 |
A generalized numerical model for liquid water in a proton exchange membrane fuel cell with interdigitated design
Le AD, Zhou B |
| 684 - 690 |
Channel aspect ratio effect for serpentine proton exchange membrane fuel cell: Role of sub-rib convection
Wang XD, Duan YY, Yan WM, Lee DJ, Su A, Chi PH |
| 691 - 698 |
Experimental evaluation of CO poisoning on the performance of a high temperature proton exchange membrane fuel cell
Das SK, Reis A, Berry KJ |
| 699 - 705 |
Predictive control of solid oxide fuel cell based on an improved Takagi-Sugeno fuzzy model
Yang J, Li X, Mou HG, Jian L |
| 706 - 712 |
Fabrication and evaluation of solid-oxide fuel cell anodes employing reaction-sintered yttria-stabilized zirconia
Storjohann D, Daggett J, Sullivan NR, Zhu HY, Kee RJ, Menzer S, Beeaff D |
| 713 - 722 |
Method using gas chromatography to determine the molar flow balance for proton exchange membrane fuel cells exposed to impurities
Bender G, Angelo M, Bethune K, Dorn S, Thampan T, Rocheleau R |
| 723 - 729 |
Model-oriented cast ceramic tape seals for planar solid oxide fuel cells
Sang SB, Pu J, Bo C, Jian L |
| 730 - 738 |
Interactions of nickel/zirconia solid oxide fuel cell anodes with coal gas containing arsenic
Coyle CA, Marina OA, Thomsen EC, Edwards DJ, Cramer CD, Coffey GW, Pederson LR |
| 739 - 746 |
The effect of phosphine in syngas on Ni-YSZ anode-supported solid oxide fuel cells
Xu CC, Zondlo JW, Finklea HO, Demircan O, Gong MY, Liu XB |
| 747 - 753 |
Solid oxide fuel cell cathodes prepared by infiltration of LaNi0.6Fe0.4O3 and La0.91Sr0.09Ni0.6Fe0.4O3 in porous yttria-stabilized zirconia
Lee S, Bevilacqua M, Fornasiero P, Vohs JM, Gorte RJ |
| 754 - 760 |
Three-dimensional anode engineering for the direct methanol fuel cell
Bauer A, Oloman CW, Gyenge EL |
| 761 - 765 |
Monolithic micro-direct methanol fuel cell in polydimethylsiloxane with microfluidic channel-integrated Nafion strip
Shen M, Walter S, Gijs MAM |
| 766 - 768 |
Effect of deformation on electrical properties of carbon fibers used in gas diffusion layer of proton exchange membrane fuel cells
Parikh N, Allen J, Yassar RS |
| 769 - 773 |
A novel design and performance of cone-shaped tubular anode-supported segmented-in-series solid oxide fuel cell stack
Ding J, Liu J |
| 774 - 778 |
Development of electrolyte-supported intermediate-temperature single-chamber solid oxide fuel cells using Ln(0.7)Sr(0.3)Fe(0.8)Co(0.2)O(3-delta) (Ln = Pr, La, Gd) cathodes
de Larramendi IR, Lamas DG, Cabezas MD, de Larramendi JIR, de Reca NEW, Rojo T |
| 779 - 787 |
Life time test in direct borohydride fuel cell system
Jamard R, Salomon J, Martinent-Beaumont A, Coutanceau C |
| 788 - 796 |
Development and demonstration flight of a fuel cell system for high-altitude balloons
Uno M, Shimada T, Ariyama Y, Fukuzawa N, Noguchi D, Ogawa K, Naito H, Sone Y, Saito Y |
| 797 - 803 |
Design, integration and demonstration of a 50 W JP8/kerosene fueled portable SOFC power generator
Cheekatamarla PK, Finnerty CM, Robinson CR, Andrews SM, Brodie JA, Lu Y, DeWald PG |
| 804 - 809 |
Effect of propane sultone on elevated temperature performance of anode and cathode materials in lithium-ion batteries
Xu MQ, Li WS, Lucht BL |
| 810 - 815 |
Electroless-plated tin compounds on carbonaceous mixture as anode for lithium-ion battery
Jhan YR, Duh JG, Yang MH, Shieh DT |
| 816 - 821 |
Preparation and electrochemical properties of Li4Ti5O12 thin film electrodes by pulsed laser deposition
Deng JQ, Lu ZG, Belharouak I, Amine K, Chung CY |
| 822 - 827 |
Physical and electrochemical properties of LiFePO4/C composite cathode prepared from various polymer-containing precursors
Nien YH, Carey JR, Chen JS |
| 828 - 833 |
Influence of synthesis conditions on electrochemical properties of high-voltage Li1.02Ni0.5Mn1.5O4 spinel cathode material
Hwang BJ, Wu YW, Venkateswarlu M, Cheng MY, Santhanam R |
| 834 - 840 |
Tris(pentafluorophenyl) borane as an electrolyte additive for LiFePO4 battery
Chang CC, Chen TK |
| 841 - 845 |
Improved high-rate charge/discharge performances of LiFePO4/C via V-doping
Sun CS, Zhou Z, Xu ZG, Wang DG, Wei JP, Bian XK, Yan J |
| 846 - 850 |
Electrostatic spray deposition of porous Fe2O3 thin films as anode material with improved electrochemical performance for lithium-ion batteries
Wang L, Xu HW, Chen PC, Zhang DW, Ding CX, Chen CH |
| 851 - 854 |
A novel high temperature stable lithium salt (Li2B12F12) for lithium ion batteries
Arai J, Matsuo A, Fujisaki T, Ozawa K |
| 855 - 858 |
A combustion chemistry analysis of carbonate solvents used in Li-ion batteries
Harris SJ, Timmons A, Pitz WJ |
| 859 - 863 |
Poly(tetrahydrobenzodithiophene): High discharge specific capacity as cathode material for lithium batteries
Zhan LZ, Song ZP, Shan N, Zhang JY, Tang J, Zhan H, Zhou YH, Li ZY, Zhan CM |
| 864 - 870 |
Effect of deep discharge on the electrochemical behavior of cobalt oxides and oxyhydroxides used as conductive additives in Ni-MH cells
Douin M, Guerlou-Demourgues L, Goubault L, Bernard P, Delmas C |
| 871 - 877 |
Structural analysis by synchrotron X-ray diffraction, X-ray absorption fine structure and transmission electron microscopy for aluminum-substituted alpha-type nickel hydroxide electrode
Morishita M, Kakeya T, Ochiai S, Ozaki T, Kawabe Y, Watada M, Sakai T |
| 878 - 884 |
An inexpensive and efficient pyridine-based additive for the electrolyte of dye-sensitized solar cells
Shi JF, Peng B, Pei J, Peng SJ, Chen J |
| 885 - 889 |
Ag/C nanoparticles as an cathode catalyst for a zinc-air battery with a flowing alkaline electrolyte
Han JJ, Li N, Zhang TY |
| 890 - 894 |
The inhibition of the spongy electrocrystallization of zinc from doped flowing alkaline zincate solutions
Wen YH, Cheng J, Zhang L, Yan X, Yang YS |
| 895 - 898 |
Further studies of the anodic dissolution in sodium chloride electrolyte of aluminium alloys containing tin and gallium
Nestoridi M, Pletcher D, Wharton JA, Wood RJK |
| 899 - 907 |
Fuzzy logic control of stand-alone photovoltaic system with battery storage
Lalouni S, Rekioua D, Rekioua T, Matagne E |
| 908 - 913 |
Separation of Cd and Ni from Ni-Cd batteries by an environmentally safe methodology employing aqueous two-phase systems
Lacerda VG, Mageste AB, Santos IJB, da Silva LHM, da Silva MDH |
| 914 - 923 |
Spent NiMH batteries-The role of selective precipitation in the recovery of valuable metals
Bertuol DA, Bernardes AM, Tenorio JAS |
| 924 - 929 |
Preparation and characterization of polypyrrole films for three-dimensional micro supercapacitor
Sun W, Chen XY |
| 930 - 934 |
Electrochemical behavior of carbon-nanotube/cobalt oxyhydroxide nanoflake multilayer films
Zheng HJ, Tang FQ, Lim M, Rufford T, Mukherji A, Wang LZ, Lu GQ |
| 935 - 938 |
Growth of single-crystal alpha-MnO2 nanotubes prepared by a hydrothermal route and their electrochemical properties
Xiao W, Xia H, Fuh JYH, Lu L |
| 939 - 943 |
Synthesis and capacitive property of hierarchical hollow manganese oxide nanospheres with large specific surface area
Tang XH, Liu ZH, Zhang CX, Yang ZP, Wang ZL |
| 944 - 949 |
Wide-temperature range operation supercapacitors from nanostructured activated carbon fabric
Hung KS, Masarapu C, Ko TH, Wei BQ |
