| 1 - 9 |
Intelligent control of vehicle to grid power
Khayyam H, Ranjbarzadeh H, Marano V |
| 10 - 17 |
The electrochemical and thermodynamic characterization of PrBaCo2-xFexO5+delta (x=0, 0.5, 1) infiltrated into yttria-stabilized zirconia scaffold as cathodes for solid oxide fuel cells
Choi S, Shin J, Kim G |
| 18 - 25 |
Effects of (LaSr)(CoFeCu)O3-delta cathodes on the characteristics of intermediate temperature solid oxide fuel cells
Wang SF, Yeh CT, Wang YR, Hsu YF |
| 26 - 36 |
Synthesis and performance of A-site deficient lanthanum-doped strontium titanate by nanoparticle based spray pyrolysis
Burnat D, Heel A, Holzer L, Kata D, Lis J, Graule T |
| 37 - 42 |
Comparison of the membrane-electrode assembly conditioning procedures for direct methanol fuel cells
Zhao XS, Li W, Manthiram A |
| 43 - 48 |
Ni modified ceramic anodes for solid oxide fuel cells
Xiao GL, Jin C, Liu Q, Heyden A, Chen FL |
| 49 - 58 |
Preparation and characterization of Ce- and La-doped Ba2In2O5 as candidates for intermediate temperature (100-500 degrees C) solid proton conductors
Jankovic J, Wilkinson DP, Hui R |
| 59 - 65 |
Effects of operating conditions on internal resistances in enzyme fuel cells studied via electrochemical impedance spectroscopy
Aaron D, Borole AP, Yiacoumi S, Tsouris C |
| 66 - 71 |
Intermediate temperature solid oxide fuel cells with Cu1.3Mn1.7O4 internal reforming layer
Jin C, Yang CH, Zheng HH, Chen FL |
| 72 - 80 |
Poly(benzimidazole)/silica-ethyl-phosphoric acid hybrid membranes for proton exchange membrane fuel cells
Lin HL, Tang TH, Hu CR, Yu TL |
| 81 - 87 |
Facile synthesis of poly(amidoamine)-modified carbon nanospheres supported Pt nanoparticles for direct methanol fuel cells
Huang YQ, Huang HL, Liu YJ, Xie Y, Liang ZR, Liu CH |
| 88 - 94 |
Fabrication and performance of catalyst-coated membranes by layer-by-layer deposition of catalyst onto Nafion for polymer electrolyte membrane fuel cells
Yilmazturk S, Gumusoglu T, Ari GA, Oksuzomer F, Deligoz H |
| 95 - 102 |
Electrochemical characteristics of La0.8Sr0.2Cr0.82Ru0.18O3-delta-Gd0.1Ce0.9O2 solid oxide fuel cell anodes in H-2-H2O-CO-CO2 fuel mixtures
Bierschenk DM, Barnett SA |
| 103 - 111 |
Development of new anodes compatible with the solid oxide fuel cell electrolyte BaIn0.3Ti0.7O2.85
Moser F, Caldes MT, Benamira M, Greneche JM, Leone P, Joubert O |
| 112 - 120 |
Combined Cr and S poisoning in solid oxide fuel cell cathodes
Schuler JA, Yokokawa H, Calderone CF, Jeangros Q, Wuillemin Z, Hessler-Wyser A, Van Herle J |
| 121 - 127 |
Electrochemical study on co-doped ceria-carbonate composite electrolyte
Raza R, Qin HY, Fan LD, Takeda K, Mizuhata M, Zhu B |
| 128 - 135 |
Enhanced sulfur and carbon coking tolerance of novel co-doped ceria based anode for solid oxide fuel cells
Zhou XL, Zhen JM, Liu LM, Li XK, Zhang NQ, Sun KN |
| 136 - 141 |
Stainless steel mesh coated with MnO2/carbon nanotube and polymethylphenyl siloxane as low-cost and high-performance microbial fuel cell cathode materials
Chen YF, Lv ZS, Xu JM, Peng DQ, Liu YX, Chen JX, Sun XB, Feng CH, Wei CH |
| 142 - 150 |
Cross-linked tri-side chains poly(arylene ether ketone)s containing pendant alkylsulfonic acid groups for proton exchange membranes
Zhang LY, Zhang G, Zhao CJ, Jiang H, Wang J, Xu D, Zhang Y, Shao K, Liu ZG, Ma WJ, Li HT, Li MY, Wang S, Na H |
| 151 - 158 |
Fuel cell performances at optimized Nafion and Ru85Se15 loadings in cathode catalyst layer
Zheng QM, Cheng X, Jao TC, Weng FB, Su A, Chiang YC |
| 159 - 163 |
Performance and analysis of a novel polymer electrolyte membrane fuel cell using a solution based redox mediator
Singh R, Shah AA, Potter A, Clarkson B, Creeth A, Downs C, Walsh FC |
| 164 - 168 |
A novel core-shell nanocomposite electrolyte for low temperature fuel cells
Wu JS, Zhu B, Mi YQ, Shih SJ, Wei J, Huang YZ |
| 169 - 173 |
Morphology and transport properties of the solid electrolyte Li7La3Zr2O12 prepared by the solid-state and citrate-nitrate methods
Il'ina EA, Andreev OL, Antonov BD, Batalov NN |
| 174 - 178 |
Hydride reduced LaSrCoO4-delta as new cathode material for Ba(Zr0.1Ce0.7Y0.2)O-3 based intermediate temperature solid oxide fuel cells
Peng B, Chen G, Wang T, Zhou J, Guo JJ, Cheng YH, Wu K |
| 179 - 183 |
Ultrasound-assisted polyol synthesis and electrocatalytic characterization of PdxCo alloy and core-shell nanoparticles
Jang JH, Pak C, Kwon YU |
| 184 - 195 |
A PDE model for microscopic simulation of solid oxide fuel cells
Angeloni M, Lisbona P, Bove R |
| 196 - 203 |
Component interactions after long-term operation of an SOFC stack with LSM cathode
Malzbender J, Batfalsky P, Vassen R, Shemet V, Tietz F |
| 204 - 218 |
Modeling of oxygen reduction mechanism for 3PB and 2PB pathways at solid oxide fuel cell cathode from multi-step charge transfer
Gong MY, Gemmen RS, Liu XB |
| 219 - 225 |
Heterogeneous through-plane distributions of polytetrafluoroethylene in polymer electrolyte membrane fuel cell gas diffusion layers
Rofaiel A, Ellis JS, Challa PR, Bazylak A |
| 226 - 230 |
The synthesis and characteristic of an anion conductive polymer membrane for alkaline anion exchange fuel cells
Cao YC, Wang X, Scott K |
| 231 - 235 |
Determining the mechanical properties of solid oxide fuel cell by an improved work of indentation approach
Zhao X, Wang FH, Hang JY, Liu TJ |
| 236 - 242 |
Alkaline fuel cells running at elevated temperature for regenerative fuel cell system applications in spacecrafts
Markgraf S, Horenz M, Schmiel T, Jehle W, Lucas J, Henn N |
| 243 - 252 |
Configuration of solar-hydrogen mild hybrid fuel cell power systems for electric vehicles
Chen PC |
| 253 - 258 |
Preparation and electrochemical performance of Gd-doped LiFePO4/C composites
Pang LJ, Zhao MS, Zhao X, Chai YJ |
| 259 - 266 |
Few-layer SnS2/graphene hybrid with exceptional electrochemical performance as lithium-ion battery anode
Chang K, Wang Z, Huang GC, Li H, Chen WX, Lee JY |
| 267 - 273 |
Electrochemical performance of Li3-xNaxV2(PO4)(3)/C composite cathode materials for lithium ion batteries
Chen QQ, Qiao XC, Wang YB, Zhang TT, Peng C, Yin WM, Liu L |
| 274 - 279 |
Synthesis and characterization of LiFePO4 and LiFePO4/C cathode material from lithium carboxylic acid and Fe3+
Yang KR, Deng ZH, Suo JS |
| 280 - 287 |
Design of composite polymer electrolytes for Li ion batteries based on mechanical stability criteria
Kalnaus S, Sabau AS, Tenhaeff WE, Dudney NJ, Daniel C |
| 288 - 293 |
Cooperative enhancement of capacities in nanostructured SnSb/carbon nanotube network nanocomposite as anode for lithium ion batteries
Fan SF, Sun T, Rui XH, Yan QY, Hng HH |
| 294 - 300 |
Microporous gel polymer electrolytes for lithium rechargeable battery application
Idris NH, Rahman MM, Wang JZ, Liu HK |
| 301 - 306 |
Synthesis of Li3V2(PO4)(3) cathode material via a fast sol-gel method based on spontaneous chemical reactions
Yuan W, Yan J, Tang ZY, Sha O, Wang JM, Mao WF, Ma L |
| 307 - 321 |
Calibration and finite element simulation of pouch lithium-ion batteries for mechanical integrity
Sahraei E, Hill R, Wierzbicki T |
| 322 - 331 |
Mathematical modeling of the LiAl/FeS2 high temperature battery system
Yang TT, Cai L, White RE |
| 332 - 339 |
Novel Pr0.6Sr0.4Fe0.8Co0.2O3:Ce0.8Sm0.2O2 composite nanotubes for energy conversion and storage
Pinedo R, de Larramendi IR, Ortiz-Vitoriano N, de Muro IG, Rojo T |
| 340 - 346 |
A cost-effective way to maintain metal-doped carbon xerogels and their applications on electric double-layer capacitors
Lu X, Shen JF, Ma HW, Yan B, Li ZQ, Shi M, Ye MX |
| 347 - 352 |
Carbon black supercapacitors employing thin electrodes
Kossyrev P |
| 353 - 359 |
Are room temperature ionic liquids able to improve the safety of supercapacitors organic electrolytes without degrading the performances?
Abdallah T, Lemordant D, Claude-Montigny B |
| 360 - 367 |
An insight into the electrochemical behavior of Co/Al layered double hydroxide thin films prepared by electrodeposition
Scavetta E, Ballarin B, Corticelli C, Gualandi I, Tonelli D, Prevot V, Forano C, Mousty C |
| 368 - 375 |
High power supercapacitor electrodes based on flexible TiC-CDC nano-felts
Gao Y, Presser V, Zhang LF, Niu JJ, McDonough JK, Perez CR, Lin HB, Fong H, Gogotsi Y |
| 376 - 381 |
Preparation and capacitance performance of Ag-graphene based nanocomposite
Zheng L, Zhang GN, Zhang M, Guo SH, Liu ZH |
| 382 - 386 |
Dual-template synthesis of Co(OH)(2) with mesoporous nanowire structure and its application in supercapacitor
Xue T, Wang X, Lee JM |
| 387 - 394 |
Improved the performance of dye-sensitized solar cells by incorporating mesoporous silica (SBA-15) materials in scattering layer
Yang CC, Zheng YR |
| 395 - 401 |
Dye-sensitized solar cells using ion-gel electrolytes for long-term stability
Yoon J, Kang DK, Won J, Park JY, Kang YS |
| 402 - 407 |
A low cost mesoporous carbon/SnO2/TiO2 nanocomposite counter electrode for dye-sensitized solar cells
Sun WW, Sun XH, Peng T, Liu YM, Zhu HW, Guo SS, Zhao XZ |
| 408 - 412 |
Enhanced photovoltaic performance of dye-sensitized solar cells using TiO2-decorated ZnO nanorod arrays grown on zinc foil
Guo TB, Chen YQ, Liu LZ, Cheng YF, Zhang XH, Li Q, Wei MQ, Ma BJ |
