| 623 - 629 |
Metal oxides as combustion catalysts for a stratified, dual bed partial oxidation catalyst
Nguyen BNT, Leclerc CA |
| 630 - 636 |
Synthesis and characterization of non-noble nanocatalysts for hydrogen production in microreactors
Shetty K, Zhao SH, Cao W, Siriwardane U, Seetala NV, Kuila D |
| 637 - 644 |
Thermodynamic analyses of hydrogen production from sub-quality natural gas - Part II: Steam reforming and autothermal steam reforming
Huang CP, T-Raissi A |
| 645 - 652 |
Thermodynamic analyses of hydrogen production from sub-quality natural gas - Part I: Pyrolysis and autothermal pyrolysis
Huang CP, T-Raissi A |
| 653 - 657 |
Hydrogen production from dimethyl ether using corona discharge plasma
Zou JJ, Zhang YP, Liu CJ |
| 661 - 670 |
The effect of composition of Ni-supported Pt-Ru binary anode catalysts on ethanol oxidation for fuel cells
Bagchi J, Bhattacharya SK |
| 671 - 678 |
Thin film Pt/TiO2 catalysts for the polymer electrolyte fuel cell
Gustavsson M, Ekstrom H, Hanarp R, Eurenius L, Lindbergh G, Olsson E, Kasemo B |
| 679 - 687 |
Anode activation polarization on Pt(h k l) electrodes in dilute sulphuric acid electrolyte
Mann RF, Amphlett JC, Peppley BA, Thurgood CP |
| 688 - 694 |
The influence of acidic and alkaline precursors on Pt-Ru/C catalyst performance for a direct methanol fuel cell
Wang ZB, Yin GP, Shi PF |
| 695 - 701 |
Electrocatalysis of methanol, ethanol and formic acid using a Ru/Pt metallic bilayer
Lemos SG, Oliveira RTS, Santos MC, Nascente PAP, Bulhoes LOS, Pereira EC |
| 702 - 707 |
High-temperature, polymer-graphite hybrid composites for bipolar plates: Effect of processing conditions on electrical properties
Radhakrishnan S, Ramanujam BTS, Adhikari A, Sivaram S |
| 708 - 712 |
Behavior of water below the freezing point in PEFCs
Ishikawa Y, Morita T, Nakata K, Yoshida K, Shiozawa M |
| 713 - 718 |
Electrochemical study of the formation of a solid electrolyte interface on graphite in a LiBC2O4F2-based electrolyte
Zhang SS |
| 719 - 724 |
Effect of plasma nitriding on behavior of austenitic stainless steel 304L bipolar plate in proton exchange membrane fuel cell
Tian RJ, Sun JC, Wang L |
| 725 - 730 |
Performance of an integrated composite membrane electrode assembly in DMFC
Wan NF, Mao ZQ, Wang C, Wang G |
| 731 - 736 |
Fabrication and characterization of components for cube shaped micro tubular SOFC bundle
Funahashi Y, Shimamori T, Suzuki T, Fujishiro Y, Awano M |
| 737 - 742 |
Current collecting efficiency of micro tubular SOFCs
Suzuki T, Yamaguchi T, Fujishiro Y, Awano M |
| 743 - 754 |
Overview on the challenges and developments of micro-direct methanol fuel cells (DMFC)
Kamarudin SK, Daud WRW, Ho SL, Hasran UA |
| 755 - 767 |
Metal bipolar plates for PEM fuel cell - A review
Tawfik H, Hung Y, Mahajan D |
| 768 - 776 |
Current distribution measurements with a free-breathing direct methanol fuel cell using PVDF-g-PSSA and Nafion (R) 117 membranes
Saarinen V, Himanen O, Kallio T, Sundholm G, Kontturi K |
| 777 - 783 |
A micro-scale model for predicting contact resistance between bipolar plate and gas diffusion layer in PEM fuel cells
Zhou Y, Lin G, Shih AJ, Hu SJ |
| 784 - 792 |
Effect of compression on liquid water transport and microstructure of PEMFC gas diffusion layers
Bazylak A, Sinton D, Liu ZS, Djilali N |
| 793 - 806 |
Transient non-isothermal model of a polymer electrolyte fuel cell
Shah AA, Kim GS, Sui PC, Harvey D |
| 807 - 813 |
Pt/CNTs-Nafion reinforced and self-humidifying composite membrane for PEMFC applications
Liu YH, Yi BL, Shao ZG, Wang L, Xing DM, Zhang HM |
| 814 - 829 |
Quasi-three dimensional dynamic model of a proton exchange membrane fuel cell for system and controls development
Mueller F, Brouwer J, Kang SG, Kim HS, Min KD |
| 830 - 845 |
Control relevant modeling of planer solid oxide fuel cell system
Murshed AKMM, Huang B, Nandakumar K |
| 846 - 852 |
A fractal model for predicting permeability and liquid water relative permeability in the gas diffusion layer (GDL) of PEMFCs
He GL, Zhao ZC, Ming PW, Abuliti A, Yin CY |
| 853 - 863 |
An experimental and numerical investigation on the cross flow through gas diffusion layer in a PEM fuel cell with a serpentine flow channel
Park J, Li XG |
| 864 - 873 |
A two-fluid model for two-phase flow in PEMFCs
He GL, Ming PW, Zhao ZC, Abudula A, Xiao Y |
| 874 - 881 |
Influence of clamping force on the performance of PEMFCs
Zhou P, Wu CW, Ma GJ |
| 882 - 891 |
Flow rate and humidification effects on a PEM fuel cell performance and operation
Guvelioglu GH, Stenger HG |
| 892 - 899 |
Influence of current densities in SOFC and PEFC stacks on a SOFC-PEFC combined system
Yokoo A, Watanabe K, Arakawa A, Yamazaki Y |
| 900 - 906 |
Fracture strength of micro-tubular solid oxide fuel cell anode in redox cycling experiments
Pusz J, Smirnova A, Mohammadi A, Sammes NM |
| 907 - 915 |
A three-dimensional two-phase flow model for a liquid-fed direct methanol fuel cell
Ge JB, Liu HT |
| 916 - 925 |
Dynamic modeling of hybrid energy storage systems coupled to photovoltaic generation in residential applications
Maclay JD, Brouwer J, Samuelsen GS |
| 926 - 932 |
Microstructural effects on the electrical and mechanical properties of Ni-YSZ cermet for SOFC anode
Yu JH, Park GW, Lee S, Woo SK |
| 933 - 942 |
A flow channel design procedure for PEM fuel cells with effective water removal
Li XG, Sabir I, Park J |
| 943 - 951 |
Catalytic steam reforming of methane, methanol, and ethanol over Ni/YSZ: The possible use of these fuels in internal reforming SOFC
Laosiripojana N, Assabumrungrat S |
| 952 - 956 |
Influence of annealing of membrane electrode assembly (MEA) on performance of direct methanol fuel cell (DMFC)
Jung HY, Cho KY, Lee YM, Park JK, Choi JH, Sung YE |
| 957 - 959 |
YSZ films fabricated by a spin smoothing technique and its application in solid oxide fuel cell
Wang JM, Lu Z, Huang XQ, Chen KF, Ai N, Hu JY, Su WH |
| 960 - 965 |
Short-period segmented-in-series solid oxide fuel cells on flattened tube supports
Pillai MR, Gostovic D, Kim I, Barnett SA |
| 966 - 970 |
The study on transient characteristic of proton exchange membrane fuel cell stack during dynamic loading
Yan XQ, Hou M, Sun LY, Cheng HB, Hong YL, Liang D, Shen Q, Ming PW, Yi BL |
| 971 - 985 |
Experimental investigation of fuel cell dynamic response and control
Williams KA, Keith WT, Marcel MJ, Haskew TA, Shepard WS, Todd BA |
| 986 - 996 |
The effect of IGFC warm gas cleanup system conditions on the gas-solid partitioning and form of trace species in coal syngas and their interactions with SOFC anodes
Trembly JP, Gemmen RS, Bayless DJ |
| 997 - 1002 |
Understanding the effect of TiO2, VCl3, and HfCl4 on hydrogen desorption/absorption of NaAlH4
Suttisawat Y, Jannatisin V, Rangsunvigit P, Kitiyanan B, Muangsin N, Kulprathipanja S |
| 1003 - 1039 |
Nano- and bulk-silicon-based insertion anodes for lithium-ion secondary cells
Kasavajjula U, Wang CS, Appleby AJ |
| 1040 - 1046 |
Synthesis and characterization of nanosized LiNiVO4 electrode material
Reddy MV, Pecquenard B, Vinatier P, Levasseur A |
| 1047 - 1052 |
LiFePO4 water-soluble binder electrode for Li-ion batteries
Guerfi A, Kaneko M, Petitclerc M, Mori M, Zaghib K |
| 1053 - 1058 |
Synthesis and characterization of submicron-sized LiNi1/3Co1/3Mn1/3O2 by a simple self-propagating solid-state metathesis method
He YS, Ma ZF, Liao XZ, Jiang Y |
| 1059 - 1063 |
2,2-Dimethoxy-propane as electrolyte additive for lithium-ion batteries
Chang CC, Her LJ, Chen LC, Lee YY, Liu SJ, Tien HJ |
| 1064 - 1069 |
Surfactant based sol-gel approach to nanostructured LiFePO4 for high rate Li-ion batteries
Choi D, Kumta PN |
| 1070 - 1073 |
Effect of carbon on the electronic conductivity and discharge capacity LiCoPO4
Wolfenstine J, Read J, Allen JL |
| 1074 - 1079 |
Thermal and electrochemical characterization of MCMB/LiNi1/3Co1/3Mn1/3O2 using LiBoB as an electrolyte additive
Lu WQ, Chen ZH, Joachin H, Prakash J, Liu J, Amine K |
| 1080 - 1086 |
Simulation of abuse tolerance of lithium-ion battery packs
Spotnitz RM, Weaver J, Yeduvaka G, Doughty DH, Roth EP |
| 1087 - 1090 |
An optimized pretreatment method in the analysis of negative plate of lead acid battery
Murthy KSN, Latha M, Vijayanthi B, Kumar NS, Vijayanand S |
| 1091 - 1104 |
Cycle life improvement of alkaline batteries via optimization of pulse current deposition of manganese dioxide under low bath temperatures
Adelkhani H, Ghaemi M, Jafari SM |
| 1105 - 1109 |
Polyaniline and polyaniline-carbon nanotube composite fibres as battery materials in ionic liquid electrolyte
Wang CY, Mottaghitalab V, Too CO, Spinks GM, Wallace GG |
| 1110 - 1113 |
Al-laminated film packaged organic radical battery for high-power applications
Nakahara K, Iriyama J, Iwasa S, Suguro M, Satoh M, Cairns EJ |
| 1114 - 1119 |
Chemical and electrochemical recycling of the negative electrodes from spent Ni-Cd batteries
Freitas MBJG, Penha TR, Sirtoli S |
| 1120 - 1125 |
Electrochemical supercapacitor electrode material based on poly(3,4-ethylenedioxythiophene)/polypyrrole composite
Wang J, Xu YL, Chen X, Du XF |
| 1126 - 1131 |
Anodic deposition of hydrous ruthenium oxide for supercapacitors
Hu CC, Liu MJ, Chang KH |
| 1132 - 1136 |
Highly ordered cobalt-manganese oxide (CMO) nanowire array thin film on Ti/Si substrate as an electrode for electrochemical capacitor
Zhao GY, Xu CL, Li HL |
| 1137 - 1142 |
Poly(3-methylthiophene)/MnO2 composite electrodes as electrochemical capacitors
Rios EC, Rosario AV, Mello RMQ, Micaroni L |
| 1143 - 1143 |
Interpretation of the interconnected microstructure of an NiO-YSZ anode composite for solid oxide fuel cells via impedance spectroscopy (vol 158, pg 45, 2006)
Lee KR, Pyo YS, So BS, Kim SM, Lee BK, Hwang JH, Kim J, Lee JH, Lee HW |
| 1144 - 1144 |
Numerical analysis of gas cross-over through the membrane in a proton exchange membrane fuel cell (vol 161, pg 371, 2006)
Seddiq M, Khaleghi H, Mirzaei M |
