| 247 - 253 |
ZrO2-SiO2/Nafion (R) composite membrane for polymer electrolyte membrane fuel cells operation at high temperature and low humidity
Park KT, Jung UH, Choi DW, Chun K, Lee HM, Kim SH |
| 254 - 261 |
Electrochemical study of a planar solid oxide fuel cell: Role of support structures
Patcharavorachot Y, Arpornwichanop A, Chuachuensuk A |
| 262 - 272 |
Fabrication of novel proton exchange membranes for DMFC via UV curing
Dai CA, Liu CP, Lee YH, Chang CJ, Chao CY, Cheng YY |
| 273 - 280 |
Electron microscopy techniques for the analysis of the polymer electrolyte distribution in proton exchange membrane fuel cells
Scheiba F, Benker N, Kunz U, Roth C, Fuess H |
| 281 - 285 |
Evaluation of carbon-supported Pt and Pd nanoparticles for the hydrogen evolution reaction in PEM water electrolysers
Grigoriev SA, Millet P, Fateev VN |
| 286 - 295 |
Novel osmium-based electrocatalysts for oxygen reduction and hydrogen oxidation in acid conditions
Uribe-Godinez J, Castellanos RH, Borja-Arco E, Altamirano-Gutierrez A, Jimenez-Sandoval O |
| 296 - 302 |
Methanol-tolerant MoN electrocatalyst synthesized through heat treatment of molybdenum tetraphenylporphyrin for four-electron oxygen reduction reaction
Xia DG, Liu SZ, Wang ZY, Chen G, Zhang LJ, Zhang L, Hui SQ, Zhang JJ |
| 303 - 313 |
Comparison between numerical simulation and visualization experiment on water behavior in single straight flow channel polymer electrolyte fuel cells
Masuda H, Ito K, Oshima T, Sasaki K |
| 314 - 322 |
High loading and monodispersed Pt nanoparticles on multiwalled carbon nanotubes for high performance proton exchange membrane fuel cells
Saha MS, Li RY, Sun XH |
| 323 - 329 |
Solid-oxide fuel cell operated on in situ catalytic decomposition products of liquid hydrazine
Gu HX, Ran R, Zhou W, Shao ZP, Jin WQ, Xu NP, Ahn JM |
| 330 - 333 |
Prontonic ceramic membrane fuel cells with layered GdBaCO2O5+x cathode prepared by gel-casting and suspension spray
Lin B, Zhang SQ, Zhang LC, Bi L, Ding HP, Liu XQ, Gao HF, Meng GY |
| 334 - 338 |
Novel hollow PtRu nanospheres supported on multi-walled carbon nanotube for methanol electrooxidation
Guo DJ, Zhao L, Qiu XP, Chen LQ, Zhu WT |
| 339 - 347 |
Polarization analysis for metal-supported SOFCs from different fabrication processes
Huang QA, Oberste-Berghaus J, Yang D, Yick S, Wang ZW, Wang BW, Hui R |
| 348 - 354 |
Enhancing liquid water transport by laser perforation of a GDL in a PEM fuel cell
Gerteisen D, Heilmann T, Ziegler C |
| 355 - 368 |
Impact of cell design and operating conditions on the performances of SOFC fuelled with methane
Laurencin J, Lefebvre-Joud F, Delette G |
| 369 - 375 |
Theoretical analysis of reversible solid oxide fuel cell based on proton-conducting electrolyte
Ni M, Leung MKH, Leung DY |
| 376 - 385 |
DC electrodeposition of Mn-Co alloys on stainless steels for SOFC interconnect application
Wu JW, Jiang YL, Johnson C, Liu XB |
| 386 - 392 |
Catalyst failure analysis of a direct methanol fuel cell membrane electrode assembly
Wang ZB, Rivera H, Wang XP, Zhang HX, Feng PM, Lewis EA, Smotkin ES |
| 393 - 403 |
Multivariable robust control of a proton exchange membrane fuel cell system
Wang FC, Chen HT, Yang YP, Yen JY |
| 404 - 411 |
Transient behavior of water generation in a proton exchange membrane fuel cell
Hao LX, Yu HM, Hou JB, Song W, Shao ZG, Yi BL |
| 412 - 418 |
Reliability and availability analysis of low power portable direct methanol fuel cells
Sisworahardjo NS, Alam MS, Aydinli G |
| 419 - 425 |
Use of a catalyst layer for anode-supported SOFCs running on ethanol fuel
Ye XF, Wang SR, Wang ZR, Xiong L, Sun XE, Wen TL |
| 426 - 433 |
Comparison of heat and mass transfer between planar and MOLB-type SOFCs
Yang YZ, Wang GL, Zhang H, Xia WS |
| 434 - 450 |
Modelling of fuel cells using multi-domain VHDL-AMS language
Blunier B, Miraoui A |
| 451 - 456 |
High sintering ability and electrical conductivity of Zn doped La(Ca)CrO3 based interconnect ceramics for SOFCs
Liu MF, Zhao L, Dong DH, Wang SL, Diwu J, Liu XQ, Meng GY |
| 457 - 463 |
Effect of PTFE content in microporous layer on water management in PEM fuel cells
Park S, Lee JW, Popov BN |
| 464 - 469 |
Electrical properties of Al-doped oxyapatites at intermediate temperature
Chefi S, Madani A, Boussetta H, Roux C, Hammou A |
| 470 - 477 |
Preparation and characterization of Ir/TiC catalyst for oxygen evolution
Ma LR, Sui S, Zhai YC |
| 478 - 484 |
Electrochemical hydrogen pumping using a high-temperature polybenzimidazole (PBI) membrane
Perry KA, Eisman GA, Benicewicz BC |
| 485 - 492 |
Simple and fast fabrication of polymer template-Ru composite as a catalyst for hydrogen generation from alkaline NaBH4 solution
Hsueh CL, Chen CY, Ku JR, Tsai SF, Hsu YY, Tsau FH, Jeng MS |
| 493 - 499 |
Thermodynamic analysis of the efficiency of high-temperature steam electrolysis system for hydrogen production
Liu MY, Yu B, Xu JM, Chen J |
| 500 - 505 |
The reaction pathway and rate-limiting step of dehydrogenation of the LiHN2+LiHmixture
Shaw LL, Osbom W, Markmaitree T, Wan XF |
| 506 - 511 |
Experimental studies on hydrogen generation by methane autothermal reforming over nickel-based catalyst
Wang HM |
| 512 - 527 |
A review of processes and technologies for the recycling of lithium-ion secondary batteries
Xu JQ, Thomas HR, Francis RW, Lum KR, Wang JW, Liang B |
| 528 - 536 |
Dual active material composite cathode structures for Li-ion batteries
Whitacre JF, Zaghib K, West WC, Ratnakumar BV |
| 537 - 545 |
N-Methyl-(n-butyl)pyrrolidinium bis(trifluoromethanesulfonyl)imide-LiTFSI-poly(ethylene glycol) dimethyl ether mixture as a Li/S cell electrolyte
Shin JH, Cairns EJ |
| 546 - 552 |
CoO-loaded graphitable carbon hollow spheres as anode materials for lithium-ion battery
Li F, Zou QQ, Xia YY |
| 553 - 560 |
Studies on the degradation of Li-ion batteries by the use of microreference electrodes
Zhou J, Notten PHL |
| 561 - 565 |
Single-ion conductors for lithium batteries via silica surface modification
Zhang HJ, Zhang XW, Shiue E, Fedkiw PS |
| 566 - 578 |
Battery switch array system with application for JPL's rechargeable micro-scale batteries
Alahmad M, Hess H, Mojarradi M, West W, Whitacre J |
| 579 - 589 |
Modeling and simulation of solid oxide fuel cell based on the volume-resistance characteristic modeling technique
Wang LJ, Zhang HS, Weng SL |
| 590 - 594 |
Enhanced electrochemical properties of a Si-based anode using an electrochemically active polyamide imide binder
Choi NS, Yew KH, Choi WU, Kim SS |
| 595 - 609 |
Thermal activated ("thermal") battery technology - Part IIIa: FeS2 cathode material
Masset PJ, Guidotti RA |
| 610 - 616 |
Investigation of the process of thermal runaway in nickel-cadmium accumulators
Galushkin DN, Yazvinskaya NN, Galushkin NE |
| 617 - 623 |
Pre-irradiation grafting of styrene and maleic anhydride onto PVDF membrane and subsequent sulfonation for application in vanadium redox batteries
Qiu JY, Zhao L, Zhai ML, Ni JF, Zhou HH, Peng J, Li JQ, Wei GS |
| 624 - 630 |
Electrochemical behavior of Mg-Li, Mg-Li-Al and Mg-Li-Al-Ce in sodium chloride solution
Cao DX, Wu L, Sun Y, Wang GL, Lv YZ |
| 631 - 636 |
Low-Pt-loading acetylene-black cathode for high-efficient dye-sensitized solar cells
Cai FS, Liang J, Tao ZH, Chen J, Xu RS |
| 637 - 642 |
Clay as a dispersant in the catalyst layer for zinc-air fuel cells
Chao WK, Lee CM, Shieu SY, Chou CC, Shieu FS |
| 643 - 651 |
High-energy density graphite/AC capacitor in organic electrolyte
Khomenko V, Raymundo-Pinero E, Beguin F |
| 652 - 659 |
Solid state double layer capacitor based on a polyether polymer electrolyte blend and nanostructured carbon black electrode composites
Lavall RL, Borges RS, Calado HDR, Welter C, Trigueiro JPC, Rieumont J, Neves BRA, Silva GG |
| 660 - 664 |
Investigation on capacity fading of aqueous MnO2 center dot nH(2)O electrochemical capacitor
Hsieh YC, Lee KT, Lin YP, Wu NL, Donne SW |
| 665 - 668 |
A novel capacitor material based on Nafion-doped polypyrrole
Kim BC, Ko JM, Wallace GG |
| 669 - 675 |
The effect of the conditions of electrodeposition on the capacitive properties of dinitrobenzoyl-derivative polypyrrole films
Ribeiro LMO, Auad JZ, Silva JG, Navarro M, Mirapalheta A, Fonseca C, Neves S, Tonholo J, Ribeiro AS |
| 676 - 680 |
A novel electrochemical process to prepare a high-porosity manganese oxide electrode with promising pseudocapacitive performance
Chang JK, Hsu SH, Tsai WT, Sun IW |
| 681 - 684 |
Performance of AC/graphite capacitors at high weight ratios of AC/graphite
Wang H, Yoshio M |
| 685 - 689 |
Al-substituted alpha-cobalt hydroxide synthesized by potentiostatic deposition method as an electrode material for redox-supercapacitors
Gupta V, Gupta S, Miura N |
