| 4531 - 4553 |
A critical review of two-phase flow in gas flow channels of proton exchange membrane fuel cells
Anderson R, Zhang LF, Ding YL, Blanco M, Bi XT, Wilkinson DP |
| 4554 - 4569 |
Ceramic and polymeric solid electrolytes for lithium-ion batteries
Fergus JW |
| 4570 - 4582 |
Progress in metal-supported solid oxide fuel cells: A review
Tucker MC |
| 4583 - 4592 |
Tolerance tests of H2S-laden biogas fuel on solid oxide fuel cells
Xu CC, Zondlo JW, Gong MY, Elizalde-Blancas F, Liu XB, Celik IB |
| 4593 - 4599 |
Synthesis and evaluation of nano-size lanthanum strontium manganite-yttria-stablized zirconia composite powders as cathodes for solid oxide fuel cells
Park J, Zou J, Chung J |
| 4600 - 4605 |
Highly durable graphene nanoplatelets supported Pt nanocatalysts for oxygen reduction
Shao YY, Zhang S, Wang CM, Nie ZM, Liu J, Wang Y, Lin YH |
| 4606 - 4612 |
The effect of platinum in a Nafion membrane on the durability of the membrane under fuel cell conditions
Zhao D, Yi BL, Zhang HM, Liu ML |
| 4613 - 4621 |
Novel sulfonated poly(ether ether ketone)s containing nitrile groups and their composite membranes for fuel cells
Guo MM, Liu BJ, Guan SW, Li L, Liu C, Zhang YH, Jiang ZH |
| 4622 - 4627 |
Effect of gas composition on Ru dissolution and crossover in polymer-electrolyte membrane fuel cells
Cheng TTH, Jia NY, Colbow V, Wessel S, Dutta M |
| 4628 - 4633 |
"Green" electrochemical synthesis of Pt/graphene sheet nanocomposite film and its electrocatalytic property
Liu S, Wang JQ, Zeng J, Ou JF, Li ZP, Liu XH, Yang SR |
| 4634 - 4640 |
A facile and novel approach toward synthetic polypyrrole oligomers functionalization of multi-walled carbon nanotubes as PtRu catalyst support for methanol electro-oxidation
Zhao YC, Yang XL, Tian JN, Wang FY, Zhan L |
| 4641 - 4646 |
Syntheses of sulfonated star-hyperbranched polyimides and their proton exchange membrane properties
Suda T, Yamazaki K, Kawakami H |
| 4647 - 4652 |
Detection of OH radicals as the effect of Pt particles in the membrane of polymer electrolyte fuel cells
Ohguri N, Nosaka AY, Nosaka Y |
| 4653 - 4659 |
New sulfonic acid moiety grafted on montmorillonite as filler of organic-inorganic composite membrane for non-humidified proton-exchange membrane fuel cells
Kim Y, Choi Y, Kim HK, Lee JS |
| 4660 - 4666 |
Performance improvement of direct carbon fuel cell by introducing catalytic gasification process
Li C, Shi YX, Cai NS |
| 4667 - 4675 |
Effect of firing temperature on the microstructure and performance of PrBaCo2O5+delta cathodes on Sm0.2Ce0.8O1.9 electrolytes fabricated by spray deposition-firing processes
Chen DJ, Ran R, Shao ZP |
| 4676 - 4684 |
Crosslinked membranes of sulfonated polyimides for polymer electrolyte fuel cell applications
Yaguchi K, Chen K, Endo N, Higa M, Okamoto K |
| 4685 - 4694 |
Optimizing the mass transport phenomenon around micro-electrodes of an enzymatic biofuel cell inside a blood artery via finite element analysis method
Parikh Y, Yang JH, Wang CL |
| 4695 - 4699 |
Samarium doped ceria-(Li/Na)(2)CO3 composite electrolyte and its electrochemical properties in low temperature solid oxide fuel cell
Di J, Chen MM, Wang CY, Zheng JM, Fan LD, Zhu B |
| 4700 - 4703 |
A novel Ba0.6Sr0.4Co0.9Nb0.1O3-delta cathode for protonic solid-oxide fuel cells
Lin Y, Ran R, Chen DJ, Shao ZP |
| 4704 - 4708 |
La0.6Sr0.4Co0.2Fe0.8O3-delta cathodes infiltrated with samarium-doped cerium oxide for solid oxide fuel cells
Nie LF, Liu MF, Zhang YJ, Liu ML |
| 4709 - 4713 |
Direct borohydride fuel cell using Ni-based composite anodes
Ma J, Sahai Y, Buchheit RG |
| 4714 - 4717 |
Laccase electrodes based on the combination of single-walled carbon nanotubes and redox layered double hydroxides: Towards the development of biocathode for biofuel cells
Ding SN, Holzinger M, Mousty C, Cosnier S |
| 4718 - 4721 |
Cobalt-free layered perovskite GdBaFe2O5+x as a novel cathode for intermediate temperature solid oxide fuel cells
Ding HP, Xue XJ |
| 4722 - 4726 |
The real-time determination of net water transport coefficient based on measurement of water content in the outlet gas in a polymer electrolyte fuel cell
He GL, Shibata K, Yamazaki Y, Abuliti A |
| 4727 - 4730 |
Fabrication and performance of a proton-conducting solid oxide fuel cell based on a thin BaZr0.8Y0.2O3-delta electrolyte membrane
Sun WP, Yan LT, Shi Z, Zhu ZW, Liu W |
| 4731 - 4735 |
Planar polyphthalocyanine cobalt absorbed on carbon black as stable electrocatalysts for direct methanol fuel cell
Xu GF, Li ZF, Wang SW, Yu XJ |
| 4736 - 4742 |
Measurement of internal wettability of gas diffusion porous media of proton exchange membrane fuel cells
Friess BR, Hoorfar M |
| 4743 - 4752 |
Modeling of an automotive fuel cell thermal system
Nolan J, Kolodziej J |
| 4753 - 4757 |
Design of an optical thermal sensor for proton exchange membrane fuel cell temperature measurement using phosphor thermometry
Inman K, Wang X, Sangeorzan B |
| 4758 - 4764 |
Alternative perovskite materials as a cathode component for intermediate temperature single-chamber solid oxide fuel cell
Gaudillere C, Olivier L, Vernoux P, Zhang CM, Shao ZP, Farrusseng D |
| 4765 - 4771 |
The influence of gas diffusion layer wettability on direct methanol fuel cell performance: A combined local current distribution and high resolution neutron radiography study
Schroder A, Wippermann K, Lehnert W, Stolten D, Sanders T, Baumhofer T, Kardjilov N, Hilger A, Banhart J, Manke I |
| 4772 - 4778 |
Electrodeposition of yttria/cobalt oxide and yttria/gold coatings onto ferritic stainless steel for SOFC interconnects
Tondo E, Boniardi M, Cannoletta D, De Riccardis MF, Bozzini B |
| 4779 - 4784 |
Synthesis, structural analysis and electrochemical performances of BLSITCFx as new cathode materials for solid oxide fuel cells (SOFC) based on BITO7 electrolyte
Letilly M, La Salle AL, Lachgar A, Joubert O |
| 4785 - 4795 |
An algorithm for sensor-less fuel control of direct methanol fuel cells
Shen KS, Wan CC, Wang YY, Yu TL, Chiu YJ |
| 4796 - 4803 |
Fabrication and characterization of micro PEM fuel cells using pyrolyzed carbon current collector plates
Wang Y, Pham L, de Vasconcellos GPS, Madou M |
| 4804 - 4810 |
Microstructural analysis of a solid oxide fuel cell anode using focused ion beam techniques coupled with electrochemical simulation
Shearing PR, Cai Q, Golbert JI, Yufit V, Adjiman CS, Brandon NP |
| 4811 - 4815 |
Mass minimization of a discrete regenerative fuel cell (RFC) system for on-board energy storage
Li XJ, Xiao Y, Shao ZG, Yi BL |
| 4816 - 4825 |
A simple analysis of current collection in tubular solid oxide fuel cells
Virkar AV, Lange FF, Homel MA |
| 4826 - 4834 |
Thermal management of the molten carbonate fuel cell plane
Bosio B, Marra D, Arato E |
| 4835 - 4841 |
Thin film thermocouples for in situ membrane electrode assembly temperature measurements in a polybenzimidazole-based high temperature proton exchange membrane unit cell
Ali ST, Lebaek J, Nielsen LP, Mathiasen C, Moller P, Kaer SK |
| 4842 - 4852 |
A study of multi-phase flow through the cathode side of an interdigitated flow field using a multi-fluid model
Berning T, Odgaard M, Kaer SK |
| 4853 - 4864 |
Compatibility between AISI441 alloy interconnect and representative seal glasses in solid oxide fuel/electrolyzer cells
Jin T, Lu K |
| 4865 - 4870 |
Fractal model for predicting the effective binary oxygen diffusivity of the gas diffusion layer in proton exchange membrane fuel cells
Shi Y, Wu HY, Quan SH, Xiao JS, Pan M |
| 4871 - 4892 |
A multi-level simulation platform of natural gas internal reforming solid oxide fuel cell-gas turbine hybrid generation system: Part I. Solid oxide fuel cell model library
Bao C, Shi YX, Croiset E, Li C, Cai NS |
| 4893 - 4904 |
Comparison of the multicomponent mass transfer models for the prediction of the concentration overpotential for solid oxide fuel cell anodes
Vural Y, Ma L, Ingham DB, Pourkashanian M |
| 4905 - 4914 |
Thermal stresses in an operating micro-tubular solid oxide fuel cell
Serincan MF, Pasaogullari U, Sammes NM |
| 4915 - 4922 |
Characterization of direct methanol fuel cell (DMFC) applications with H2SO4 modified chitosan membrane
Osifo PO, Masala A |
| 4923 - 4927 |
Evaluation of Ba-2(In0.8Ti0.2)(2)O5.2-n(OH)(2n) as a potential electrolyte material for proton-conducting solid oxide fuel cell
Quarez E, Noirault S, La Salle AL, Stevens P, Joubert O |
| 4928 - 4934 |
Open circuit voltage profiling as diagnostic tool during stack lifetime testing
Stumper J, Rahmani R, Fuss F |
| 4935 - 4942 |
Understanding the kinetics of coal electrolysis at intermediate temperatures
Jin X, Botte GG |
| 4943 - 4951 |
Elevated temperature cycling stability and electrochemical impedance of LiMn2O4 cathodes with nanoporous ZrO2 and TiO2 coatings
Walz KA, Johnson CS, Genthe J, Stoiber LC, Zeltner WA, Anderson MA, Thackeray MM |
| 4952 - 4956 |
Thermal stability of FeF3 cathode for Li-ion batteries
Zhou MJ, Zhao LW, Doi T, Okada S, Yamaki J |
| 4957 - 4962 |
Understanding the redox shuttle stability of 3,5-di-tert-butyl-1,2-dimethoxybenzene for overcharge protection of lithium-ion batteries
Zhang ZC, Zhang L, Schlueter JA, Redfern PC, Curtiss L, Amine K |
| 4963 - 4970 |
Study and development of non-aqueous silicon-air battery
Cohn G, Ein-Eli Y |
| 4971 - 4976 |
Factors affecting Li mobility in spinel LiMn2O4-A first-principles study by GGA and GGA plus U methods
Xu B, Meng S |
| 4977 - 4983 |
Mesoporous carbon-encapsulated NiO nanocomposite negative electrode materials for high-rate Li-ion battery
Cheng MY, Hwang BJ |
| 4984 - 4989 |
Preparation of Li2S-GeSe2-P2S5 electrolytes by a single step ball milling for all-solid-state lithium secondary batteries
Trevey JE, Jung YS, Lee SH |
| 4990 - 4996 |
On the room temperature synthesis of monoclinic Li3FeF6: A new cathode material for rechargeable lithium batteries
Gonzalo E, Kuhn A, Garcia-Alvarado F |
| 4997 - 5004 |
Synthesis of pristine and carbon-coated Li4Ti5O12 and their low-temperature electrochemical performance
Yuan T, Yu X, Cai R, Zhou YK, Shao ZP |
| 5005 - 5012 |
A new solid-state process for synthesis of LiMn1.5Ni0.5O4-delta spinel
Hagh NM, Amatucci GG |
| 5013 - 5018 |
Synthesis and characterization of Li3V(2-2x/3)Mgx(PO4)(3)/C cathode material for lithium-ion batteries
Huang JS, Yang L, Liu KY, Tang YF |
| 5019 - 5024 |
Development of efficient carbon anode material for a high-power and long-life lithium ion battery
Fujimoto H |
| 5025 - 5031 |
Electrodeposited MnOx/carbon nanofiber composites for use as anode materials in rechargeable lithium-ion batteries
Lin Z, Ji LW, Woodroof MD, Zhang XW |
| 5032 - 5038 |
Al-doped spinel LiAl0.1Mn1.9O4 with improved high-rate cyclability in aqueous electrolyte
Yuan AB, Tian L, Xu WM, Wang YQ |
| 5039 - 5043 |
Autogenic reactions for preparing carbon-encapsulated, nanoparticulate TiO2 electrodes for lithium-ion batteries
Pol VG, Kang SH, Calderon-Moreno JM, Johnson CS, Thackeray MM |
| 5044 - 5048 |
Improvement of electrochemical behavior of Sn2Fe/C nanocomposite anode with Al2O3 addition for lithium-ion batteries
Lee JM, Jung H, Hwa Y, Kim H, Im D, Doo SG, Sohn HJ |
| 5049 - 5051 |
Thermal studies of charged cathode material (LixCoO2) with temperature-programmed decomposition-mass spectrometry
Lee SH, Jung JM, Ok JH, Park CH |
| 5052 - 5056 |
A novel carbon-silicon composite nanofiber prepared via electrospinning as anode material for high energy-density lithium ion batteries
Wang L, Ding CX, Zhang LC, Xu HW, Zhang DW, Cheng T, Chen CH |
| 5057 - 5061 |
Synthesis and electrochemical performances of Li3V2(PO4)(3)/(Ag + C) composite cathode
Zhang L, Wang XL, Xiang JY, Zhou Y, Shi SJ, Tu JP |
| 5062 - 5066 |
In situ measurements of stress evolution in silicon thin films during electrochemical lithiation and delithiation
Sethuraman VA, Chon MJ, Shimshak M, Srinivasan V, Guduru PR |
| 5067 - 5070 |
Electrochemical performance of a tin electrodeposit with a multi-layered structure for Li-ion batteries
Kim R, Nam D, Kwon H |
| 5071 - 5080 |
Experiment-driven electrochemical modeling and systematic parameterization for a lithium-ion battery cell
Schmidt AP, Bitzer M, Imre AW, Guzzella L |
| 5081 - 5088 |
Modeling diffusion-induced stress in nanowire electrode structures
Deshpande R, Cheng YT, Verbrugge MW |
| 5089 - 5093 |
Lithium-manganese dioxide cells for implantable defibrillator devices-Discharge voltage models
Root MJ |
| 5094 - 5100 |
Synthesis and characterization of spherical nonstoichiometric Ni(OH)(x) (x=2.03-2.10) as electrode materials
Yuan GX, Huang KL, Liu SQ, Li YJ, Wang HY |
| 5101 - 5108 |
Ion transport and ion-filler-polymer interaction in poly(methyl methacrylate)-based, sodium ion conducting, gel polymer electrolytes dispersed with silica nanoparticles
Kumar D, Hashmi SA |
| 5109 - 5113 |
Assembly of CdSe onto mesoporous TiO2 films induced by a self-assembled monolayer for quantum dot-sensitized solar cell applications
Chong LW, Chien HT, Lee YL |
| 5114 - 5121 |
Pyridinium-based protic ionic liquids as electrolytes for RuO2 electrochemical capacitors
Mayrand-Provencher L, Lin SX, Lazzerini D, Rochefort D |
| 5122 - 5129 |
Evaluation on carbon nanocapsules for supercapacitors using a titanium cavity electrode
Wu CY, Wu PW, Lin P |
| 5130 - 5137 |
Grafting effect on the wetting and electrochemical performance of carbon cloth electrode and polypropylene separator in electric double layer capacitor
Stepniak I, Ciszewski A |
| 5138 - 5143 |
Improved performance of dye-sensitized solar cells with TiO2/alumina core-shell formation using atomic layer deposition
Ganapathy V, Karunagaran B, Rhee SW |
| 5144 - 5149 |
Effect of length of anodized TiO2 tubes on photoreactivity: Photocurrent, Cr(VI) reduction and H-2 evolution
Park M, Heo A, Shim E, Yoon J, Kim H, Joo H |
| 5150 - 5151 |
Support for the high efficiency, carbon separation and internal reforming capabilities of solid oxide fuel cell systems
Brouwer J |
| 5152 - 5153 |
Re: "Support for the high efficiency, carbon separation and internal reforming capabilities of solid oxide fuel cell systems"
Adams TA, Barton PI |
| 5154 - 5154 |
Comments on "Ultra-low leak rate of hybrid compressive mica seals for solid oxide fuel cells"
Deng XH |
