| 1 - 10 |
Analysis of the kinetics of methanol oxidation in a porous Pt-Ru anode
Sun YP, Xing L, Scott K |
| 11 - 20 |
Preparation of sulfonated poly(ether ether ketone)s containing amino groups/epoxy resin composite membranes and their in situ crosslinking for application in fuel cells
Guo MM, Liu BJ, Li L, Liu C, Wang LF, Jiang ZH |
| 21 - 29 |
Radiation-grafted membranes based on polyethylene for direct methanol fuel cells
Sherazi TA, Guiver MD, Kingston D, Ahmad S, Kashmiri MA, Xue XZ |
| 30 - 38 |
Influence of ammonia on the conductivity of Nafion membranes
Hongsirikarn K, Goodwin JG, Greenway S, Creager S |
| 39 - 45 |
Direct dimethyl-ether proton exchange membrane fuel cells and the use of heteropolyacids in the anode catalyst layer for enhanced dimethyl ether oxidation
Ferrell JR, Kuo MC, Herring AM |
| 46 - 53 |
Evaluation of silver as a miniature direct methanol full cell electrode
Gao Y, Kong XX, Munroe N, Jones K |
| 54 - 61 |
Importance of pyrolysis and catalytic decomposition for the direct utilization of methanol in solid oxide fuel cells
Cimenti M, Hill JM |
| 62 - 68 |
Optimization of assembly clamping pressure on performance of proton-exchange membrane fuel cells
Xing XQ, Lum KW, Poh HJ, Wu YL |
| 69 - 78 |
Modelling of tubular-designed solid oxide fuel cell with indirect internal reforming operation fed by different primary fuels
Dokmaingam P, Assabumrungrat S, Soottitantawat A, Laosiripojana N |
| 79 - 89 |
Modelling and simulation of two-chamber microbial fuel cell
Zeng YZ, Choo YF, Kim BH, Wu P |
| 90 - 96 |
Evaluating the performance of microbial fuel cells powering electronic devices
Dewan A, Donovan C, Heo D, Beyenal H |
| 97 - 103 |
Sulfonated poly(fluorenyl ether ketone nitrile) electrolyte membrane with high proton conductivity and low water uptake
Tian SH, Shu D, Wang SJ, Xiao M, Meng YZ |
| 104 - 110 |
Evaluation of hydrogen and methanol fuel cell performance of sulfonated diels alder poly(phenylene) membranes
Stanis RJ, Yaklin MA, Cornelius CJ, Takatera T, Umemoto A, Ambrosini A, Fujimoto CH |
| 111 - 117 |
Inoculation procedures and characterization of membrane electrode assemblies for microbial fuel cells
Prakash GKS, Viva FA, Bretschger O, Yang B, El-Naggar M, Nealson K |
| 118 - 123 |
LSCF-SDC core-shell high-performance durable composite cathode
Lee S, Song HS, Hyun SH, Kim J, Moon J |
| 124 - 129 |
Preparation of La0.75Sr0.25Cr0.5Mn0.5O3-delta fine powders by carbonate coprecipitation for solid oxide fuel cells
Ha SB, Cho PS, Cho YH, Lee D, Lee JH |
| 130 - 141 |
Steady saturation distribution in hydrophobic gas-diffusion layers of polymer electrolyte membrane fuel cells: A pore-network study
Lee KJ, Nam JH, Kim CJ |
| 142 - 145 |
A novel bifunctional electrocatalyst for unitized regenerative fuel cell
Zhang YN, Zhang HM, Ma YW, Cheng JB, Zhong HX, Song SD, Ma HP |
| 146 - 150 |
Preparation and characterization of novel nickel-palladium electrodes supported by silicon microchannel plates for direct methanol fuel cells
Miao FJ, Tao BR, Sun L, Liu T, You JC, Wang LW, Chu PK |
| 151 - 154 |
Performance of an anode support solid oxide fuel cell manufactured by microwave sintering
Jiao ZJ, Shikazono N, Kasagi N |
| 155 - 159 |
Enhanced catalytic properties from platinum nanodots covered carbon nanotubes for proton-exchange membrane fuel cells
Tang Z, Poh CK, Lee KK, Tian ZQ, Chua DHC, Lin JY |
| 160 - 164 |
Comparative study of three different catalyst coating methods for direct methanol fuel cells
Choi HJ, Kim J, Kwon Y, Han J |
| 165 - 169 |
A preliminary study of the electro-oxidation of L-ascorbic acid on polycrystalline silver in alkaline solution
Kasmaee LM, Gobal F |
| 170 - 174 |
New proton conducting polymer blends and their fuel cell performance
Gourdoupi N, Kallitsis JK, Neophytides S |
| 175 - 180 |
Effect of precursor nature on the performance of palladium-cobalt electrocatalysts for direct methanol fuel cells
Serov A, Nedoseykina T, Shvachko O, Kwak C |
| 181 - 184 |
The effects of excess phosphoric acid in a Polybenzimidazole-based high temperature proton exchange membrane fuel cell
Matar S, Higier A, Liu HT |
| 185 - 189 |
Investigation of PtNi/C anode electrocatalysts for direct borohydride fuel cell
Wang GJ, Gao YZ, Wang ZB, Du CY, Wang JJ, Yin GP |
| 190 - 194 |
Power generation from furfural using the microbial fuel cell
Luo Y, Liu GL, Zhang RD, Zhang CP |
| 195 - 203 |
Thermal stability of a new solid oxide fuel/electrolyzer cell seal glass
Jin T, Lu K |
| 204 - 213 |
Performance analysis of a pressurized molten carbonate fuel cell/micro-gas turbine hybrid system
Liu AG, Weng YW |
| 214 - 222 |
Kinetics of (reversible) internal reforming of methane in solid oxide fuel cells under stationary and APU conditions
Timmermann H, Sawady W, Reimert R, Ivers-Tiffee E |
| 223 - 231 |
Ion track grafting: A way of producing low-cost and highly proton conductive membranes for fuel cell applications
Clochard MC, Berthelot T, Baudin C, Betz N, Balanzat E, Gebel G, Morin A |
| 232 - 238 |
Membranes produced by plasma enhanced chemical vapor deposition technique for low temperature fuel cell applications
Ennajdaoui A, Roualdes S, Brault P, Durand J |
| 239 - 248 |
Methane-free biogas for direct feeding of solid oxide fuel cells
Leone P, Lanzini A, Santarelli M, Cali M, Sagnelli F, Boulanger A, Scaletta A, Zitella P |
| 249 - 256 |
Ex situ measurements of through-plane thermal conductivities in a polymer electrolyte fuel cell
Burheim O, Vie PJS, Pharoah JG, Kjelstrup S |
| 257 - 262 |
Thermal imaging of solid oxide fuel cell anode processes
Pomfret MB, Steinhurst DA, Kidwell DA, Owrutsky JC |
| 263 - 270 |
Preparation and properties of functionalized multiwalled carbon nanotubes/polypropylene nanocomposite bipolar plates for polymer electrolyte membrane fuel cells
Liao SH, Weng CC, Yen CY, Hsiao MC, Ma CCM, Tsai MC, Su A, Yen MY, Lin YF, Liu PL |
| 271 - 279 |
Stability and coking of direct-methane solid oxide fuel cells: Effect of CO2 and air additions
Pillai M, Lin YB, Zhu HY, Kee RJ, Barnett SA |
| 280 - 284 |
Co-free, iron perovskites as cathode materials for intermediate-temperature solid oxide fuel cells
Hou SE, Alonso JA, Goodenough JB |
| 285 - 288 |
Advanced electrochemical performance of Li4Ti4.95V0.05O12 as a reversible anode material down to 0 V
Yi TF, Shu J, Zhu YR, Zhu XD, Zhu RS, Zhou AN |
| 289 - 292 |
A Facile Route for Polymer Electrolyte Membrane Fuel Cell Electrodes with in situ Grown Pt Nanowires
Du SF |
| 293 - 298 |
A direct methanol fuel cell system to power a humanoid robot
Joh HI, Ha TJ, Hwang SY, Kim JH, Chae SH, Cho JH, Prabhuram J, Kim SK, Lim TH, Cho BK, Oh JH, Moon SH, Ha HY |
| 299 - 306 |
Microscale packed bed reactor for controlled hydrogen peroxide decomposition as a fuel cell oxidant aboard unmanned undersea vehicles
Lennon E, Burke AA, Ocampo M, Besser RS |
| 307 - 312 |
Promoted hydrogen generation from ammonia borane aqueous solution using cobalt-molybdenum-boron/nickel foam catalyst
Dai HB, Gao LL, Liang Y, Kang XD, Wang P |
| 313 - 319 |
Self-assembled synthesis of hierarchical nanostructured CuO with various morphologies and their application as anodes for lithium ion batteries
Xiang JY, Tu JP, Zhang L, Zhou Y, Wang XL, Shi SJ |
| 320 - 326 |
Effects of ZnO coating on electrochemical performance and thermal stability of LiCoO2 as cathode material for lithium-ion batteries
Chang W, Choi JW, Im JC, Lee JK |
| 327 - 334 |
Interface-mediated electrochemical effects in lithium/polymer-ceramic cells
Kumar J, Rodrigues SJ, Kumar B |
| 335 - 340 |
Effect of activation at elevated temperature on Li-ion batteries with flame-retarded electrolytes
Xiang HF, Lin HW, Yin B, Zhang CP, Ge XW, Chen CH |
| 341 - 353 |
New hybrid inorganic-organic polymer electrolytes based on Zr(O(CH2)(3)CH3)(4), glycerol and EMIm-TFSI ionic liquid
Jeyapandian M, Lavina S, Thayumanasundaram S, Ohno H, Negro E, Di Noto V |
| 354 - 357 |
Electrochemical properties of helical carbon nanomaterials formed on LiCoO2 by chemical vapor deposition
Uno Y, Tsujikawa T, Hirai T |
| 358 - 361 |
A lithium-air battery with a potential to continuously reduce O-2 from air for delivering energy
Wang YG, Zhou HS |
| 362 - 366 |
Conductive ceramic coating on polyacrylonitrile-vinyl chloride (modacrylic) discontinuous fibers via electroless deposition
Patankar SN, McAllister SD, Cheng IF, Edwards DB |
| 367 - 373 |
Structure, morphology and electrochemical behaviour of manganese oxides prepared by controlled decomposition of permanganate
Donne SW, Hollenkamp AF, Jones BC |
| 374 - 379 |
Effect of Mg3MnNi2 on the electrochemical characteristics of Mg2Ni electrode alloy
Hsu FK, Lin CK, Lee SL, Lin CY, Bor HY |
| 380 - 383 |
Effect of CuO addition on electrochemical properties of AB(3)-type alloy electrodes for nickel/metal hydride batteries
Li Y, Han SM, Zhu XL, Ding HL |
| 384 - 388 |
A novel Bi-doped borosilicate glass as sealant for sodium sulfur battery. Part 1: Thermophysical characteristics and structure
Song SF, Wen ZY, Zhang QX, Liu Y |
| 389 - 392 |
Effect of water contamination in the organic electrolyte on the performance of activated carbon/graphite capacitors
Wang HY, Yoshio M |
