| 303 - 309 |
Study on water transport in PEM of a direct methanol fuel cell
Shi MH, Wang J, Chen YP |
| 310 - 316 |
High activity PtPd-WC/C electrocatalyst for hydrogen evolution reaction
Wu M, Shen PK, Wei ZD, Song SQ, Nie M |
| 317 - 323 |
Influence of different buffer solutions on the performance of anodic Pt-Ru/C nanoparticle electrocatalysts for a direct methanol fuel cell
Wang ZB, Yin GP, Shi PF, Yang BQ, Feng PX |
| 324 - 330 |
Nafion/polyaniline/silica composite membranes for direct methanol fuel cell application
Chen CY, Garnica-Rodriguez JI, Duke MC, Dalla Costa RF, Dicks AL, da Costa JCD |
| 331 - 336 |
Improving the performance of PtRu/C catalysts for methanol oxidation by sensitization and activation treatment
Zhu J, Su Y, Cheng FY, Chen J |
| 337 - 342 |
Ni-YSZ gradient anodes for anode-supported SOFCs
Kong JR, Sun KN, Zhou DR, Zhang NQ, Mu J, Qiao JS |
| 343 - 347 |
Characterization of LiCoO2 coated Li1.05Ni0.35Co0.25Mn0.4O2 cathode material for lithium secondary cells
Son JT, Cairns EJ |
| 348 - 353 |
Effect of Dy on the corrosion of NiO/Ni in molten (0.62Li,0.38K)(2)CO3
Liu ZP, Guo PY, Zeng CL |
| 354 - 361 |
Nonlinear fuzzy modeling of a MCFC stack by an identification method
Yang F, Zhu XJ, Cao GY |
| 362 - 375 |
Electrochemical reaction and performance of proton exchange membrane fuel cells with a novel cathode flow channel shape
Chiang MS, Chu HS, Chen CK, Jian SR |
| 376 - 385 |
Adjoint method for solid-oxide fuel cell simulations
Kapadia S, Anderson WK, Elliott L, Burdyshaw C |
| 386 - 399 |
Modelling of a cathode-supported tubular solid oxide fuel cell operating with biomass-derived synthesis gas
Suwanwarangkul R, Croiset E, Pritzker MD, Fowler MW, Douglas PL, Entchev E |
| 400 - 410 |
Nanoparticle gasifier fuel cell for sustainable energy future
Gidaspow D, Jiradilok V |
| 411 - 418 |
The efficient and economic design of PEM fuel cell systems by multi-objective optimization
Na W, Gou B |
| 419 - 423 |
Aluminate cement/graphite conductive composite bipolar plate for proton exchange membrane fuel cells
Shen CH, Pan M, Hua ZF, Yuan RZ |
| 424 - 429 |
Mass transfer layer for liquid fuel cells
Yazici MS |
| 430 - 434 |
Effect of cathode inlet manifold configuration on performance of 10-cell proton-exchange membrane fuel cell
Kim SY, Kim WN |
| 435 - 440 |
Research progress of aluminium alloy endplates for PEMFCs
Fu Y, Hou M, Yan XQ, Hou JB, Luo XK, Shao ZG, Yi BL |
| 441 - 444 |
A preliminary study of a miniature planar 6-cell PEMFC stack combined with a small hydrogen storage canister
Zhang XG, Zheng D, Wang T, Chen C, Cao JY, Yan J, Wang WM, Liu JY, Liu HH, Tian J, Li XX, Yang H, Xia BJ |
| 445 - 449 |
DSP based inverter control for alternate energy systems
Shireen W, Vanapalli S, Nene H |
| 450 - 457 |
Performance of catalysts CuO-ZnO-Al2O3, CuO-ZnO-Al2O3-Pt-Rh, and Pt-Rh in a small reformer for hydrogen generation
Huang CY, Sun YM, Chou CY, Su CC |
| 458 - 461 |
Pt-WC/C as a cathode electrocatalyst for hydrogen production by methanol electrolysis
Hu ZY, Wu M, Wei ZD, Song SQ, Shen PK |
| 462 - 470 |
High-energy-density hybrid electrochemical capacitor using graphitizable carbon activated with KOH for positive electrode
Aida T, Murayama I, Yamada K, Morita M |
| 471 - 477 |
Improvement in the Ppy/V2O5 hybrid as a cathode material for Li ion batteries using PSA as an organic additive
Boyano I, Bengoechea M, de Meatza I, Miguel O, Cantero I, Ochoteco E, Rodriguez J, Lira-Cantu M, Gomez-Romero P |
| 478 - 484 |
Characterization of electrolytic Co3O4 thin films as anodes for lithium-ion batteries
Liu HC, Yen SK |
| 485 - 491 |
Oxygen deficiency, a key factor in controlling the cycle performance of Mn-spinel cathode for lithium-ion batteries
Xia YG, Wang HY, Zhang Q, Nakamura H, Noguchi H, Yoshio M |
| 492 - 498 |
Enhanced high rate performance of LiMn2O4 spinel nanoparticles synthesized by a hard-template route
Cabana J, Valdes-Solis T, Palacin MR, Oro-Sole J, Fuertes A, Marban G, Fuertes AB |
| 499 - 502 |
Comparison of the electrochemical properties of LiBOB and LiPF6 in electrolytes for LiMn2O4/Li cells
Yu BT, Qiu WH, Li FS, Cheng L |
| 503 - 508 |
Preparation and characterization of tin-based three-dimensional cellular anode for lithium ion battery
Jiang T, Zhang SC, Qiu XP, Zhu WT, Chen LQ |
| 509 - 513 |
Surface modification of aluminum with tin oxide coating
Lei XF, Xiang JF, Ma XL, Wang CW, Sun JT |
| 514 - 518 |
Preparation and rate capability of Li4Ti5O12 hollow-sphere anode material
Jiang CH, Zhou Y, Honma I, Kudo T, Zhou HS |
| 519 - 525 |
Effect of adding sorbitol to the electroplating solution on the process of depositing lead on copper and the morphology of the film produced
Siqueira JLP, Carlos IA |
| 526 - 530 |
Studies on self-assembly phenomena of hydrophilization of microporous polypropylene membrane by acetone aldol condensation products: New separator for high-power alkaline batteries
Ciszewski A, Rydzynska B |
| 531 - 536 |
Nafion/SiO2 hybrid membrane for vanadium redox flow battery
Xi JY, Wu ZH, Qiu XP, Chen LQ |
| 537 - 548 |
A model for the silver-zinc battery during high rates of discharge
Venkatraman M, Van Zee JW |
| 549 - 566 |
Commercializing light-duty plug-in/plug-out hydrogen-fuel-cell vehicles: "Mobile Electricity" technologies and opportunities
Williams BD, Kurani KS |
| 567 - 577 |
Preparation and characterisation of chemical manganese dioxide: Effect of the operating conditions
Pagnanelli F, Sambenedetto C, Furlani G, Veglio F, Toro L |
| 578 - 583 |
Hydrothermal synthesis of SnO2-V2O5 mixed oxide and electrochemical screening of carbon nano-tubes (CNT), V2O5,V2O5-CNT, and SnO2-V2O5-CNT electrodes for supercapacitor applications
Jayalakshmi M, Rao MM, Venugopal N, Kim KB |
| 584 - 589 |
The effects of hyperbranched poly(siloxysilane)s on conductive polymer aluminum solid electrolytic capacitors
Nogami K, Sakamoto K, Hayakawa T, Kakimoto M |
| 590 - 594 |
In situ MnK-edge X-ray absorption spectroscopic studies of anodically deposited manganese oxide with relevance to supercapacitor applications
Chang JK, Lee MT, Tsai WT |
| 595 - 598 |
Activation of an ionic liquid electrolyte for electric double layer capacitors by addition of BaTiO3 to carbon electrodes
Nagao Y, Nakayama Y, Oda H, Ishikawa M |
