| 1 - 13 |
A review of modeling and simulation techniques across the length scales for the solid oxide fuel cell
Grew KN, Chiu WKS |
| 14 - 21 |
The effect of glycerol on the conductivity of Nafion-free ZrP/PTFE composite membrane electrolytes for direct hydrocarbon fuel cells
Al-Othman A, Tremblay AY, Pell W, Liu Y, Peppley BA, Ternan M |
| 22 - 28 |
Titanium carbide-derived carbon as a novel support for platinum catalysts in direct methanol fuel cell application
Schlange A, dos Santos AR, Hasse B, Etzold BJM, Kunz U, Turek T |
| 29 - 36 |
Hydrophilic and hydrophobic double microporous layer coated gas diffusion layer for enhancing performance of polymer electrolyte fuel cells under no-humidification at the cathode
Kitahara T, Nakajima H, Mori K |
| 37 - 45 |
Fabrication of anion-exchange composite membranes for alkaline direct methanol fuel cells
Yang CC, Chiu SS, Kuo SC, Liou TH |
| 46 - 52 |
Rotating disk electrode measurements of activity and stability of monolayer Pt on tungsten carbide disks for oxygen reduction reaction
Hsu IJ, Kimmel YC, Dai Y, Chen SL, Chen JGG |
| 53 - 60 |
Anodic properties of hollow carbon nanofibers for Li-ion battery
Lee BS, Son SB, Park KM, Yu WR, Oh KH, Lee SH |
| 61 - 67 |
Flexible proton-conducting glass-based composite membranes for fuel cell application
Li HB, Chen XJ, Jiang FJ, Ai MH, Di ZG, Gu J |
| 68 - 74 |
The application of Ir-V/C catalyst as a durable anode catalyst for a 1.5 kW proton exchange membrane fuel cell stack
Yang DJ, Li B, Zhang H, Zheng JS, Lin R, Ma JX |
| 75 - 84 |
Effects of catalyst load in Pt and Pb-based catalysts using formic acid oxidation as a model
Buzzo GS, Orlandi MJB, Teixeira-Neto E, Homem-de-Mello P, Lopes ACG, Franco E, Suffredini HB |
| 85 - 93 |
Two phase flow simulation in a channel of a polymer electrolyte membrane fuel cell using the lattice Boltzmann method
Ben Salah Y, Tabe Y, Chikahisa T |
| 94 - 102 |
Deposition and activity stability of Pt-Co catalysts on carbon nanotube-based electrodes prepared by microwave-assisted synthesis
Hsieh CT, Chen WY, Chen IL, Roy AK |
| 103 - 109 |
Product distribution and the reaction kinetics at the anode of direct ethanol fuel cell with Pt/C, PtRu/C and PtRuRh/C
Nakagawa N, Kaneda Y, Wagatsuma M, Tsujiguchi T |
| 110 - 116 |
Liquid phase migration effects on the evaporative and condensational dissipation of phosphoric acid in phosphoric acid fuel cell
Hirata H, Aoki T, Nakajima K |
| 117 - 123 |
Design of thermal self supported 700 W class, solid oxide fuel cell module using, LSGM thin film micro tubular cells
Watanabe N, Ooe T, Ishihara T |
| 124 - 131 |
Nanoporous PdCu alloy for formic acid electro-oxidation
Xu CX, Liu YQ, Wang JP, Geng HR, Qiu HJ |
| 132 - 137 |
Performance of a commercial cathode-supported solid oxide fuel cells prepared by single-step infiltration of an ion-conducting electrocatalyst
Li X, Xu NS, Zhao X, Huang KV |
| 138 - 141 |
Enabling catalysis of Ru-CeO2 for propane oxidation in low temperature solid oxide fuel cells
Liu XJ, Zhan ZL, Meng X, Huang WH, Wang SR, Wen TL |
| 142 - 145 |
Novel Ni-Ba1+xZr0.3Ce0.5Y0.2O3-delta hydrogen electrodes as effective reduction barriers for reversible solid oxide cells based on doped ceria electrolyte thin film
Rao YY, Wang ZQ, Zhong W, Peng RR, Lu YL |
| 146 - 149 |
Methanol electrooxidation promoted by UV-vis light irradiation
Li P, Li ZP, Liu BH |
| 150 - 154 |
PrNi0.6Co0.4O3-Ce0.8Sm0.2O1.9 composite cathodes for intermediate temperature solid oxide fuel cells
Huang SG, Lu QL, Feng SJ, Li G, Wang CC |
| 155 - 160 |
Detection of water vapor in cathode gas diffusion layer of polymer electrolyte fuel cell using water sensitive paper
Nishida K, Ishii M, Tsushima S, Hirai S |
| 161 - 164 |
Sr0.7Ho0.3CoO3-delta as a potential cathode material for intermediate-temperature solid oxide fuel cells
Liu T, Li Y, Goodenough JB |
| 165 - 169 |
In situ spectroscopic investigation of CO accumulation and poisoning on Pd black surfaces in concentrated HCOOH
Zhang HX, Wang SH, Jiang K, Andre T, Cai WB |
| 170 - 173 |
One-step sintering process of gadolinia-doped ceria interlayer-scandia-stabilized zirconia electrolyte for anode supported microtubular solid oxide fuel cells
Suzuki T, Liang B, Yamaguchi T, Sumi H, Hamamoto K, Fujishiro Y |
| 174 - 178 |
Agglomeration behavior of nickel particles on YSZ and TiO2-doped YSZ electrolytes
Kishimoto H, Suzuki A, Shimonosono T, Brito ME, Yamaji K, Horita T, Munakata F, Yokokawa H |
| 179 - 194 |
An efficient method for numerical predictions of the performance characteristics of fuel cells. I. Model development and validation
Jung SP, Lee CI, Chen CC |
| 195 - 200 |
Niobium nitride modified AISI 304 stainless steel bipolar plate for proton exchange membrane fuel cell
Wang LX, Sun JC, Sun J, Lv Y, Li S, Ji SJ, Wen ZS |
| 201 - 206 |
Structural analysis, phase stability and electrochemical characterization of Nb doped BaCe0.9Y0.1O3-x electrolyte for IT-SOFCs
Di Bartolomeo E, D'Epifanio A, Pugnalini C, Giannici F, Longo A, Martorana A, Licoccia S |
| 207 - 213 |
Ex situ and in situ evaluation of carbon ion-implanted stainless steel bipolar plates in polymer electrolyte membrane fuel cells
Feng K, Hu T, Cai X, Li ZG, Chu PK |
| 214 - 219 |
Synthesis and electrochemical characterization of multi-cations doped spinel LiMn2O4 used for lithium ion batteries
Xiong LL, Xu YL, Tao T, Goodenough JB |
| 220 - 226 |
Electrochemical and rate performance study of high-voltage lithium-rich composition: Li1.2Mn0.525Ni0.175Co0.1O2
Martha SK, Nanda J, Veith GM, Dudney NJ |
| 227 - 238 |
Electro-thermal modeling and experimental validation for lithium ion battery
Ye YH, Shi YX, Cai NS, Lee J, He XM |
| 239 - 246 |
Development of ionic liquid-based lithium battery prototypes
Kim GT, Jeong SS, Xue MZ, Balducci A, Winter M, Passerini S, Alessandrini F, Appetecchi GB |
| 247 - 255 |
Bipolar plate cell design for a lithium air battery
Adams J, Karulkar M |
| 256 - 262 |
High-rate capability of LiFePO4 cathode materials containing Fe2P and trace carbon
Yin YH, Gao MX, Pan HG, Shen LK, Ye X, Liu YF, Fedkiw PS, Zhang XW |
| 263 - 269 |
A new cathode material Na2V6O16 center dot xH(2)O nanowire for lithium ion battery
Wang HY, Wang WJ, Ren Y, Huang KL, Liu SQ |
| 270 - 277 |
Binder free, porous and nanostructured Co3O4 anode for Li-ion batteries from solution precursor plasma deposition
Tummala R, Guduru RK, Mohanty PS |
| 278 - 286 |
Synthesis of Li2FeSiO4/C nanocomposite cathodes for lithium batteries by a novel synthesis route and their electrochemical properties
Shao B, Taniguchi I |
| 287 - 292 |
The low and high temperature electrochemical performances of Li3V2(PO4)(3)/C cathode material for Li-ion batteries
Qiao YQ, Tu JP, Wang XL, Cu CD |
| 293 - 299 |
The study of electrochemical properties and lithium deposition of graphite at low temperature
Park G, Gunawardhana N, Nakamura H, Lee YS, Yoshio M |
| 300 - 307 |
Effect of Ce-doping on the structure and electrochemical performance of lithium trivanadate prepared by a citrate sot-gel method
Wu ZJ, Zhou Y |
| 308 - 314 |
Electrochemically stabilised quinone based electrode composites for Li-ion batteries
Pirnat K, Dominko R, Cerc-Korosec R, Mali G, Genorio B, Gaberscek M |
| 315 - 321 |
NH4V3O8 nanorod as a high performance cathode material for rechargeable Li-ion batteries
Wang HY, Ren Y, Wang WJ, Huang XB, Huang KL, Wang Y, Liu SQ |
| 322 - 330 |
New insights into the limiting parameters of the Li/S rechargeable cell
Barchasz C, Lepretre JC, Alloin F, Patoux S |
| 331 - 335 |
Natural cellulose as binder for lithium battery electrodes
Jeong SS, Bockenfeld N, Balducci A, Winter M, Passerini S |
| 336 - 340 |
A new electrochemical reaction mechanism of tin pyrophosphate thin film with lithium
Ren QQ, Zhou YN, Sun Q, Fu ZW |
| 341 - 345 |
Three-dimensional core-shell Cu@Cu6Sn5 nanowires as the anode material for lithium ion batteries
Chen JZ, Yang L, Fang SH, Hirano S, Tachibana K |
| 346 - 349 |
Electrochemical properties of Li7La3Zr2O12 solid electrolyte prepared in argon atmosphere
Kotobuki M, Kanamura K, Sato Y, Yamamoto K, Yoshida T |
| 350 - 354 |
Facile synthesis of VO2(B)/carbon nanobelts with high capacity and good cyclability
Zhao QQ, Jiao LF, Peng WX, Gao HY, Yang JQ, Wang QH, Du HM, Li L, Qi Z, Si YC, Wang YJ, Yuan HT |
| 355 - 359 |
A high capacity cathode material-MnO2 doped with nano Ag4Bi2O5 for alkaline secondary batteries
Wang Q, Pan JQ, Sun YZ, Wang ZH |
| 360 - 366 |
Integration of batteries with ultracapacitors for a fuel cell hybrid transit bus
Bubna P, Advani SG, Prasad AK |
| 367 - 372 |
Characterization and optimization of a printed, primary silver-zinc battery
Braam KT, Volkman SK, Subramanian V |
| 373 - 378 |
Enhancement of capacitance performance of flexible carbon nanofiber paper by adding graphene nanosheets
Tai ZX, Yan XB, Lang JW, Xue QJ |
| 379 - 385 |
Spectroscopic and electrochemical characteristics of a carboxylated graphene-ZnO composites
Park KW, Jung JH |
| 386 - 394 |
Electrostatic self-assembly of hierarchical porous carbon microparticles
Balach J, Bruno MM, Cotella NG, Acevedo DF, Barbero CA |
| 395 - 401 |
Enhanced high-current capacitive behavior of graphene/CoAl-layered double hydroxide composites as electrode material for supercapacitors
Zhang LJ, Zhang XG, Shen LF, Gao B, Hao L, Lu XJ, Zhang F, Ding B, Yuan CZ |
| 402 - 408 |
The effects of surfactant template concentration on the supercapacitive behaviors of hierarchically porous carbons
Zhang XY, Wang XY, Su JC, Wang XY, Jiang LL, Wu H, Wu C |
| 409 - 412 |
MnO2 film with three-dimensional structure prepared by hydrothermal process for supercapacitor
Yan DL, Guo ZL, Zhu GS, Yu ZZ, Xu HR, Yu AB |
| 413 - 417 |
Self-assembled synthesis of hierarchically porous NiO film and its application for electrochemical capacitors
Zhang YQ, Xia XH, Tu JP, Mai YJ, Shi SJ, Wang XL, Gu CD |
| 418 - 425 |
Enhanced efficiency for dye-sensitized solar cells using a surface-treated photo-anode
Liu R, Yang WD, Qiang LS |
| 426 - 431 |
Triphenylamine-based starburst dyes with carbazole and phenothiazine antennas for dye-sensitized solar cells
Wan ZQ, Jia CY, Zhang JQ, Duan YD, Lin Y, Shi Y |
