| 699 - 711 |
Microstructure changes in the catalyst layers of PEM fuel cells induced by load cycling - Part I. Mechanical model
Rong F, Huang C, Liu ZS, Song D, Wang QP |
| 712 - 723 |
Microstructure changes in the catalyst layers of PEM fuel cells induced by load cycling - Part II. Simulation and understanding
Rong F, Huang C, Liu ZS, Song D, Wang QP |
| 724 - 731 |
Improvement of electrochemical performances of sulfonated poly(arylene ether sulfone) via incorporation of sulfonated poly(arylene ether benzimidazole)
Hong YT, Lee CH, Park HNS, Min KA, Kim HJ, Nam SY, Lee YM |
| 732 - 738 |
Estimation of flooding in PEMFC gas diffusion layer by differential pressure measurement
Ito K, Ashikaga K, Masuda H, Oshima T, Kakimoto Y, Sasaki K |
| 739 - 748 |
La0.4Ce0.6O1.8-La0.8Sr0.2MnO3-8 mol% yttria-stabilized zirconia composite cathode for anode-supported solid oxide fuel cells
Zhang M, Yang M, Liu B, Hou ZF, Dong YL, Cheng MJ |
| 749 - 759 |
Influence of sorption kinetics for zirconia sensitization in solid oxide fuel cell functional anode prepared by electroless technique
Mukhopadhyay J, Banerjee M, Basu RN |
| 760 - 772 |
Basic model for membrane electrode assembly design for direct methanol fuel cells
Krewer U, Yoon HK, Kim HT |
| 773 - 778 |
Surrogate model for proton exchange membrane fuel cell (PEMFC)
Timovan R, Giurgea S, Miraoui A, Cirrincione A |
| 779 - 783 |
Hydrogen oxidation on ordered intermetallic electrodes covered with CO
Innocente AF, Angelo ACD |
| 784 - 788 |
Carbon-supported Pd-Ir catalyst as anodic catalyst in direct formic acid fuel cell
Wang X, Tang Y, Gao Y, Lu TH |
| 789 - 793 |
Catalytic activity of platinum/tungsten oxide nanorod electrodes towards electro-oxidation of methanol
Maiyalagan T, Viswanathan B |
| 794 - 799 |
Preparation and characterization of carbon-supported PtTi alloy electrocatalysts
Ding E, More KL, He T |
| 800 - 805 |
Solid oxide fuel cells with bi-layered electrolyte structure
Zhang X, Robertson M, Deces-Petit C, Xie Y, Hui R, Qu W, Kesler O, Maric R, Ghosh D |
| 806 - 816 |
Effects of internal flow modification on the cell performance enhancement of a PEM fuel cell
Perng SW, Wu HW |
| 817 - 825 |
Mechanical properties of a reinforced composite polymer electrolyte membrane and its simulated performance in PEM fuel cells
Tang YL, Kusoglu A, Karlsson AM, Santare MH, Cleghorn S, Johnson WB |
| 826 - 832 |
Application of hyperdispersant to the cathode diffusion layer for direct methanol fuel cell
Mao Q, Sun GQ, Wang S, Sun H, Tian Y, Tian J, Xin O |
| 833 - 840 |
Evaluation of SmCo and SmCoN magnetron sputtering coatings for SOFC interconnect applications
Wu JW, Li CM, Johnson C, Liu XB |
| 841 - 850 |
Fluid dynamics performance of different bipolar plates - Part I. Velocity and pressure fields
Barreras F, Lozano A, Valino L, Mustafa R, Marin C |
| 851 - 860 |
A semi-empirical method for electrically modeling of fuel cell: Executed on a direct methanol fuel cell
Wang Y, Au G, Plichta EJ, Zheng JP |
| 861 - 865 |
Study on carbon nanotube reinforced phenol formaldehyde resin/graphite composite for bipolar plate
Yin Q, Sun KN, Li AJ, Shao L, Liu SM, Sun C |
| 866 - 873 |
LiFePO4 and graphite electrodes with ionic liquids based on bis(fluorosulfonyl)imide (FSI)(-) for Li-ion batteries
Guerfi A, Duchesne S, Kobayashi Y, Vijh A, Zaghib K |
| 874 - 880 |
Sb-coated mesophase graphite powder as anode material for lithium-ion batteries
Chang CC |
| 881 - 885 |
Thermal and electrochemical behaviour of C/LixCoO2 cell during safety test
Doh CH, Kim DH, Kim HS, Shin HM, Jeong YD, Moon SI, Jin BS, Eom SW, Kim HS, Kim KW, Oh DH, Veluchamy A |
| 886 - 890 |
Highly conductive bridges between graphite spheres to improve the cycle performance of a graphite anode in lithium-ion batteries
Wang HY, Umeno T, Mizuma K, Yoshio M |
| 891 - 896 |
Li1+xFePO4 (0 <= x <= 3) as anode material for lithium ion batteries: From ab initio studies
Ouyang CY, Shi SQ, Fang Q, Lei MS |
| 897 - 902 |
Electrochemical performance of In2O3 thin film electrode in lithium cell
Ho WH, Li CF, Liu HC, Yen SK |
| 903 - 908 |
Preparation and electrochemical properties of carbon-doped TiO2 nanotubes as an anode material for lithium-ion batteries
Xu JW, Wang YF, Li ZH, Zhang W |
| 909 - 913 |
Fiber-based flexible thermoelectric power generator
Yadav A, Pipe KP, Shtein M |
| 914 - 919 |
Low-temperature oxygen plasma treatment of TiO2 film for enhanced performance of dye-sensitized solar cells
Kim Y, Yoo BJ, Vittal R, Lee Y, Park NG, Kim KJ |
