| 1 - 2 |
In memoriam - Brian Mcnicol
Rand DAJ |
| 3 - 10 |
The role of carbon in valve-regulated lead-acid battery technology
Moseley PT, Nelson RF, Hollenkamp AF |
| 11 - 27 |
Carbon properties and their role in supercapacitors
Pandolfo AG, Hollenkamp AF |
| 28 - 34 |
A review of the latest developments in electrodes for unitised regenerative polymer electrolyte fuel cells
Pettersson J, Ramsey B, Harrison D |
| 35 - 44 |
Proton conducting composites of heteropolyacids loaded onto MCM-41
Ahmad MI, Zaidi SMJ, Ahmed S |
| 45 - 55 |
Tailoring a Pt-Ru catalyst for enhanced methanol electro-oxidation
Raman RK, Shukla AK, Gayen A, Hegde MS, Priolkar KR, Sarode PR, Emura S |
| 56 - 63 |
Studies on Co-based catalysts supported on modified carbon substrates for PEMFC cathodes
Subramanian NP, Kumaraguru SP, Colon-Mercado H, Kim H, Popov BN, Black T, Chen DA |
| 64 - 77 |
Preferential CO oxidation on Ru/Al2O3 catalyst: An investigation by considering the simultaneously involved methanation
Xu GW, Zhang ZG |
| 78 - 84 |
Unusually active palladium-based catalysts for the electrooxidation of formic acid
Larsen R, Ha S, Zakzeski J, Masel RI |
| 85 - 97 |
Effect of flow orientation on thermal-electrochemical transports in a PEM fuel cell
Hwang JJ, Chao CH, Ho WY, Chang CL, Wang DY |
| 98 - 103 |
Effect of temperature on the mechanism of ethanol oxidation on carbon supported Pt, PtRu and Pt3Sn electrocatalysts
Colmati F, Antolini E, Gonzalez ER |
| 104 - 113 |
Investigation of hydrogen production from boron compounds for PEM fuel cells
Ay M, Midilli A, Dincer I |
| 114 - 120 |
RuxCrySez electrocatalyst for oxygen reduction in a polymer electrolyte membrane fuel cell
Suarez-Alcantara K, Rodriguez-Castellanos A, Dante R, Solorza-Feria O |
| 121 - 127 |
Fabrication and characteristics of anode as an electrolyte reservoir for molten carbonate fuel cell
Youn JY, Yoon SP, Han JH, Nam SW, Lim TH, Hong SA, Lee KY |
| 128 - 135 |
Overview of the development of CO-tolerant anode electrocatalysts for proton-exchange membrane fuel cells
Wee JH, Lee KY |
| 136 - 152 |
Effect of gas channel depth on current density distribution of polymer electrolyte fuel cell by numerical analysis including gas flow through gas diffusion layer
Inoue G, Matsukuma Y, Minemoto M |
| 153 - 165 |
Examination of optimal separator shape of polymer electrolyte fuel cell with numerical analysis including the effect of gas flow through gas diffusion layer
Inoue G, Matsukuma Y, Minemoto M |
| 166 - 176 |
Behavior of PEMFC in starvation
Liu ZX, Yang LZ, Mao ZQ, Zhuge WL, Zhang YJ, Wang LS |
| 177 - 180 |
I-V characteristics of a direct type fuel cell using acetaldehyde as a fuel
Taneda K, Yamazaki Y |
| 181 - 187 |
Temperature distribution on the MEA surface of a PEMFC with serpentine channel flow bed
Wang MH, Guo H, Ma CF |
| 188 - 192 |
Electrocatalytic reduction of platinum phosphate blue on carbon surfaces: A novel method for preparing fuel cell electrodes
Bose AB, Sarkar M, Bose RN |
| 193 - 195 |
Hydrogels in methanol fuel cartridge used as a diffusion-rate-controlling agent suppressing the methanol crossover in passively operated flat-pack type DMFCs
Kim WJ, Choi HG, Lee YK, Nam JD, Cho SM, Chung CH |
| 196 - 200 |
Fabrication of a mesoporous Pt-carbon catalyst by the direct templating of mesoporous Pt-alumina for the methanol electro-oxidation
Kim H, Kim P, Joo JB, Kim W, Song IK, Yi J |
| 201 - 206 |
Optimum ionic conductivity and diffusion coefficient of ion-exchange membranes at high methanol feed concentrations in a direct methanol fuel cell
Lee K, Nam JD |
| 207 - 211 |
Nano-TiO2-coated polymer electrolyte membranes for direct methanol fuel cells
Liu ZL, Guo B, Huang JC, Hong L, Han M, Gan LM |
| 212 - 216 |
Ethanol oxidation using a metallic bilayer Rh/Pt deposited over Pt as electrocatalyst
Oliveira RTS, Santos MC, Marcussi BG, Tanimoto ST, Bulhoes LOS, Pereira EC |
| 217 - 221 |
An electrocatalyst for methanol oxidation based on tungsten trioxide microspheres and platinum
Ganesan R, Lee JS |
| 222 - 225 |
Synthesis and characterization of sulfonated polysulfone membranes for direct methanol fuel cells
Fu YZ, Manthiram A |
| 226 - 243 |
Liquid water transport in straight micro-parallel-channels with manifolds for PEM fuel cell cathode
Jiao K, Zhou B, Quan P |
| 244 - 252 |
Characterisation of direct methanol fuel cells under near-ambient conditions
Oedegaard A |
| 253 - 259 |
Behavioral pattern of a monopolar passive direct methanol fuel cell stack
Kim YJ, Bae B, Scibioh MA, Cho E, Ha HY |
| 260 - 270 |
Material degradation during isothermal ageing and thermal cycling of hybrid mica seals under solid oxide fuel cell exposure conditions
Chou YS, Stevenson JW, Hardy J, Singh P |
| 271 - 283 |
A computational simulation of a hydrogen/chlorine single fuel cell
Thomassen M, Borresen B, Scott K, Tunold R |
| 284 - 292 |
Effect of the catalytic ink preparation method on the performance of high temperature polymer electrolyte membrane fuel cells
Lobato J, Rodrigo MA, Linares JJ, Scott K |
| 293 - 301 |
Degradation of sulfonated polyimide membranes in fuel cell conditions
Meyer G, Gebel G, Gonon L, Capron P, Marscaq D, Marestin C, Mercier R |
| 302 - 310 |
Radiation heat transfer in planar SOFC electrolytes
Daun KJ, Beale SB, Liu F, Smallwood GJ |
| 311 - 317 |
Fuel-cell powered uninterruptible power supply systems: Design considerations
Choi W, Howze JW, Enjeti P |
| 318 - 324 |
Methoxy methane (dimethyl ether) as an alternative fuel for direct fuel cells
Kerangueven G, Coutanceau C, Sibert E, Leger JM, Lamy C |
| 325 - 334 |
Two-dimensional transient model of a cascaded micro-tubular solid oxide fuel cell fed with methane
Nehter P |
| 335 - 350 |
Yttrium, cobalt and yttrium/cobalt oxide coatings on ferritic stainless steels for SOFC interconnects
Qu W, Jian L, Ivey DG, Hill JM |
| 351 - 357 |
Effect of cell orientation on the performance of passive direct methanol fuel cells
Chen R, Zhao TS, Liu JG |
| 358 - 367 |
Pressure drop and flow distribution in multiple parallel-channel configurations used in proton-exchange membrane fuel cell stacks
Maharudrayya S, Jayanti S, Deshpande AP |
| 368 - 376 |
Heat resistant alloys as interconnect materials of reduced temperature SOFCs
Li J, Pu J, Xie GY, Wang SX, Xiao JZ |
| 377 - 384 |
Electrical behaviour of glass-ceramics in the systems RO-BaO-SiO2 (R = Mg, Zn) for, sealing SOFCs
Lara C, Pascual MJ, Keding R, Duran A |
| 385 - 388 |
Sol-gel processing of Sr0.5Sm0.5CoO3 film
Tang ZL, Xie YS, Hawthorne H, Ghosh D |
| 389 - 394 |
An algorithm for estimation of membrane water content in PEM fuel cells
Gorgun H, Arcak M, Barbir F |
| 395 - 400 |
Optimization of a fuel-cell manifold
Sung Y |
| 401 - 410 |
Impact of load management on reliability assessment of grid independent PEM Fuel Cell Power Plants
Tanrioven M, Alam MS |
| 411 - 421 |
Environmental and economic aspects of hydrogen production and utilization in fuel cell vehicles
Granovskii M, Dincer I, Rosen MA |
| 422 - 429 |
Operation of ceria-electrolyte solid oxide fuel cells on iso-octane-air fuel mixtures
Zhan ZL, Barnett SA |
| 430 - 437 |
Reforming system for co-generation of hydrogen and mechanical work
Lyubovsky M, Walsh D |
| 438 - 442 |
Novel architecture of composite electrode for optimization of lithium battery performance
Guy D, Lestriez B, Bouchet R, Gaudefroy V, Guyomard D |
| 443 - 447 |
Electrochemical synthesis of new substituted manganese oxides for lithium battery applications
Machefaux E, Verbaere A, Guyomard D |
| 448 - 456 |
Ionic conductivities of solid polymer electrolyte/salt systems: Group-contribution method
Joo JH, Bae YC |
| 457 - 463 |
Preparation and electrochemical characterizations of poly(3,4-dioxyethylenethiophene)/LiCoO2 composite cathode in lithium-ion battery
Her LJ, Hong JL, Chang CC |
| 464 - 470 |
Improvement of electrochemical properties of LiNi0.5Mn1.5O4 spinel material by fluorine substitution
Oh SW, Park SH, Kim JH, Bae YC, Sun YK |
| 471 - 476 |
Li+ ion diffusion in LiMn2O4 thin film prepared by PVP sol-gel method
Rho YH, Dokko K, Kanamura K |
| 477 - 482 |
Chemical interactions in the cathode half-cell of lithium-ion batteries - Part I. Thermodynamic simulation
Bushkova OV, Andreev OL, Batalov NN, Shkerin SN, Kuznetsov MV, Tyutyunnik AP, Koryakova OV, Song EH, Chung HJ |
| 483 - 487 |
MW assisted synthesis of SVO for ICD primary batteries
Beninati S, Fantuzzi M, Mastragostino M, Soavi F |
| 488 - 493 |
Morphological, structural, and electrochemical characteristics of LiNi0.5Mn0.4M0.1O2 (M = Li, Mg, Co, Al)
Li DC, Sasaki Y, Kobayakawa K, Sato Y |
| 494 - 500 |
Structural and electrochemical properties of LiNi1/3Mn1/3Co1/3O2-xFx prepared by solid state reaction
Kageyama M, Li D, Kobayakawa K, Sato Y, Lee YS |
| 501 - 506 |
PVDF-PEO blends based microporous polymer electrolyte: Effect of PEO on pore configurations and ionic conductivity
Xi JY, Qiu XP, Li J, Tang XZ, Zhu WT, Chen LQ |
| 507 - 514 |
Effects of ball-milling on lithium insertion into multi-walled carbon nanotubes synthesized by thermal chemical vapour deposition
Eom J, Kim D, Kwon HS |
| 515 - 521 |
Rotating ring-disk electrode measurements on Mn dissolution and capacity losses of spinel electrodes in various organic electrolytes
Chen JS, Wang LF, Fang BJ, Lee SY, Guo RZ |
| 522 - 527 |
CuFe2O4/SnO2 nanocomposites as anodes for Li-ion batteries
Selvan RK, Kalaiselvi N, Augustin CO, Doh CH, Sanjeeviraja C |
| 528 - 532 |
Large scale hydrothermal synthesis and electrochemistry of ammonium vanadium bronze nanobelts
Zhang KF, Zhang GQ, Liu X, Su ZX, Li HL |
| 533 - 536 |
Structural and ionic transport properties of Li(2)AIZr[PO4](3)
Savitha T, Selvasekarapandian S, Ramya CS, Bhuvaneswari MS, Hirankumar G, Baskaran R, Angelo PC |
| 537 - 542 |
Differential voltage analyses of high-power lithium-ion cells - 3. Another anode phenomenon
Bloom I, Christophersen JP, Abraham DP, Gering KL |
| 543 - 549 |
Carbon structure/function relationships: Characterization and electrochemistry of carbon nanofibers
Takeuchi KJ, Marschilok AC, Lau GC, Leising RA, Takeuchi ES |
| 550 - 562 |
Influence of the nonionic surfactant Triton X-100 on electrocrystallization and electrochemical performance of lead dioxide electrode
Ghaemi M, Ghafouri E, Neshati J |
| 563 - 570 |
EIS-in situ characterization of anodic films on antimony and lead-antimony alloys
Metikos-Hukovic M, Babic R, Brinic S |
| 571 - 578 |
Studies of the current and potential distributions on lead-acid batteries III. Formation of the single-side pasted automotive positive plate
Guo YL, Zhou XC, Huang MX, Liu HY |
| 579 - 583 |
Positive thin electrodes obtained from hydrothermally synthesized 4BS for lead-acid batteries
Cruz-Yusta M, Morales J, Sanchez L |
| 584 - 591 |
In situ STM studies of zinc in aqueous solutions containing PEG DiAcid inhibitor: Correlation with electrochemical performances of zinc-air fuel cells
Cohen-Hyams T, Ziengerman Y, Ein-Eli Y |
| 592 - 599 |
Thermal analysis of rapid charging nickel/metal hydride batteries
Shi JZ, Wu F, Chen S, Zhang CZ |
| 600 - 604 |
Recycling of nickel-cadmium batteries using coal as reducing agent
Espinosa DCR, Tenorio JAS |
| 605 - 609 |
Hybrid capacitor with activated carbon electrode, Ni(OH)(2) electrode and polymer hydrogel electrolyte
Nohara S, Toshihide AA, Wada H, Furukawa N, Inoue H, Sugoh N, Iwasaki H, Iwakura C |
| 610 - 615 |
Characteristics of ionic liquid-based electrolytes for chip type aluminum electrolytic capacitors
Song Y, Zhu XF, Wang XL, Wang MJ |
| 616 - 620 |
Influence of the microstructure on the supercapacitive behavior of polyaniline/single-wall carbon nanotube composites
Gupta V, Miura N |
| 621 - 623 |
A new class of alkaline polymer gel electrolyte for carbon aerogel supercapacitors
Kalpana D, Renganathan NG, Pitchumani S |
| 624 - 629 |
Synthesis of zinc sulphide nanoparticles by thiourea hydrolysis and their characterization for electrochemical capacitor applications
Jayalakshmi M, Rao MM |
| 630 - 640 |
Multi-level reduced-order thermal modeling of electrochemical capacitors
Guillemet P, Scudeller Y, Brousse T |
