| 4873 - 4885 |
An overview of graphene in energy production and storage applications
Brownson DAC, Kampouris DK, Banks CE |
| 4886 - 4904 |
Electrospinning materials for energy-related applications and devices
Dong ZX, Kennedy SJ, Wu YQ |
| 4905 - 4910 |
A comparative study of Pt/C cathodes in Sn0.9In0.1P2O7 and H3PO4 ionomers for high-temperature proton exchange membrane fuel cells
Jin YC, Okada M, Hibino T |
| 4911 - 4922 |
Electrochemical, structural and surface characterization of nickel/zirconia solid oxide fuel cell anodes in coal gas containing antimony
Marina OA, Pederson LR, Coyle CA, Thomsen EC, Nachimuthu P, Edwards DJ |
| 4923 - 4933 |
Effects of property variation and ideal solution assumption on the calculation of the limiting current density condition of alkaline fuel cells
Zhou G, Chen LD, Seaba JP |
| 4934 - 4942 |
Sulfonated titania submicrospheres-doped sulfonated poly(ether ether ketone) hybrid membranes with enhanced proton conductivity and reduced methanol permeability
Xu T, Hou WQ, Shen XH, Wu H, Li XC, Wang JT, Jiang ZY |
| 4943 - 4949 |
Bulk conduction and relaxation in [(ZrO2)(1-x)(CeO2)(x)](0.92)(Y2O3)(0.08) (0 <= x <= 1) solid solutions at intermediate temperatures
Yang F, Zhao XF, Xiao P |
| 4950 - 4956 |
Cathode development for alkaline fuel cells based on a porous silver membrane
Bidault F, Kucernak A |
| 4957 - 4964 |
Immobilization of Trametes hirsuta laccase into poly(3,4-ethylenedioxythiophene) and polyaniline polymer-matrices
Wang XJ, Sjoberg-Eerola P, Immonen K, Bobacka J, Bergelin M |
| 4965 - 4971 |
Influence of operational parameters and of catalytic materials on electrical performance of Direct Glycerol Solid Alkaline Membrane Fuel Cells
Ilie A, Simoes M, Baranton S, Coutanceau C, Martemianov S |
| 4972 - 4979 |
Oxygen reduction reaction via the 4-electron transfer pathway on transition metal hydroxides
Liu ZX, Li ZP, Qin HY, Liu BH |
| 4980 - 4986 |
Understanding the electrocatalytic activity of PtxSny in direct ethanol fuel cells
Wang Y, Song SQ, Andreadis G, Liu H, Tsiakaras P |
| 4987 - 4991 |
Sm-0.2(Ce1-xTix)(0.8)O-1.9 modified Ni-yttria-stabilized zirconia anode for direct methane fuel cell
Chen Y, Chen FL, Wang WD, Ding D, Gao JF |
| 4992 - 4995 |
LaNi0.8Co0.2O3 as a cathode catalyst for a direct borohydride fuel cell
Yang XD, Li S, Liu Y, Wei XZ, Liu YN |
| 4996 - 4999 |
Electrical conductivity of Ce0.8Gd0.2-xDyxO2-delta (0 <= x <= 0.2) co-doped with Gd3+ and Dy3+ for intermediate-temperature solid oxide fuel cells
Park K, Hwang HK |
| 5000 - 5006 |
Ionic conductivity, sintering and thermal expansion behaviors of mixed ion conductor BaZr0.1Ce0.7Y0.1Yb0.1O3-delta prepared by ethylene diamine tetraacetic acid assisted glycine nitrate process
Zhou XL, Liu LM, Zhen JM, Zhu SC, Li BW, Sun KN, Wang P |
| 5007 - 5011 |
Solubilities of NiO and LaNiO3 in Li/Na eutectic carbonate with rare-earth oxide
Matsuzawa K, Akinaga Y, Mitsushima S, Ota K |
| 5012 - 5020 |
Impact of channel geometry on two-phase flow in fuel cell microchannels
Steinbrenner JE, Lee ES, Hidrovo CH, Eaton JK, Goodson KE |
| 5021 - 5026 |
Preparation of nano-sized nickel as anode catalyst for direct urea and urine fuel cells
Lan R, Tao SW |
| 5027 - 5034 |
The interaction of biomass gasification syngas components with tar in a solid oxide fuel cell and operational conditions to mitigate carbon deposition on nickel-gadolinium doped ceria anodes
Mermelstein J, Milian M, Brandon NP |
| 5035 - 5044 |
Novel fabrication technique of hollow fibre support for micro-tubular solid oxide fuel cells
Othman MHD, Droushiotis N, Wu ZT, Kelsall G, Li K |
| 5045 - 5052 |
Diagnosis of MEA degradation under accelerated relative humidity cycling
Vengatesan S, Fowler MW, Yuan XZ, Wang HJ |
| 5053 - 5063 |
A semi-empirical model for efficiency evaluation of a direct methanol fuel cell
Chiu YJ, Yu TL, Chung YC |
| 5064 - 5069 |
Solid oxide fuel cells with Sm0.2Ce0.8O2-delta electrolyte film deposited by novel aerosol deposition method
Wang SF, Hsu YF, Wang CH, Yeh CT |
| 5070 - 5076 |
Numerical analysis of the effect of different gas feeding modes in a proton exchange membrane fuel cell with serpentine flow-field
Sierra JM, Moreira J, Sebastian PJ |
| 5077 - 5083 |
Comparison of degradation behaviors for open-ended and closed proton exchange membrane fuel cells during startup and shutdown cycles
Yu Y, Tu ZK, Zhang HN, Zhan ZG, Pan M |
| 5084 - 5090 |
Performance of (La,Sr)(Co,Fe)O3-x double-layer cathode films for intermediate temperature solid oxide fuel cell
Marinha D, Hayd J, Dessemond L, Ivers-Tiffee E, Djurado E |
| 5091 - 5094 |
Preparation of Cu-Ni/YSZ solid oxide fuel cell anodes using microwave irradiation
Islam S, Hill JM |
| 5095 - 5101 |
Enhanced hydrogen generation by hydrolysis of LiBH4 doped with multiwalled carbon nanotubes for micro proton exchange membrane fuel cell application
Weng BC, Wu Z, Li ZL, Yang H, Leng HY |
| 5102 - 5108 |
Aging of LiNi1/3Mn1/3Co1/3O2 cathode material upon exposure to H2O
Zhang XY, Jiang WJ, Zhu XP, Mauger A, Qilu, Julien CM |
| 5109 - 5114 |
Low Li+ binding affinity: An important characteristic for additives to form solid electrolyte interphases in Li-ion batteries
Park MH, Lee YS, Lee H, Han YK |
| 5115 - 5121 |
Modelling the thermal behaviour of a lithium-ion battery during charge
Kim US, Yi J, Shin CB, Han T, Park S |
| 5122 - 5127 |
Nickel-tin foam with nanostructured walls for rechargeable lithium battery
Jung HR, Kim EJ, Park YJ, Shin HC |
| 5128 - 5132 |
A study on lithium/air secondary batteries-Stability of the NASICON-type lithium ion conducting solid electrolyte in alkaline aqueous solutions
Shimonishi Y, Zhang T, Imanishi N, Im D, Lee DJ, Hirano A, Takeda Y, Yamamoto O, Sammes N |
| 5133 - 5137 |
Synthesis of carbon-coated TiO2 nanotubes for high-power lithium-ion batteries
Park SJ, Kim YJ, Lee H |
| 5138 - 5142 |
Large scale synthesis of nickel oxide/multiwalled carbon nanotube composites by direct thermal decomposition and their lithium storage properties
Xu CH, Sun J, Gao LA |
| 5143 - 5146 |
Preparation of LiFePO4/C in a reductive atmosphere generated by windward aerobic decomposition of glucose
Wang SP, Zhou CG, Zhou QA, Ni G, Wu JP |
| 5147 - 5154 |
Investigation of battery end-of-life conditions for plug-in hybrid electric vehicles
Wood E, Alexander M, Bradley TH |
| 5155 - 5167 |
Influence of carbons on the structure of the negative active material of lead-acid batteries and on battery performance
Pavlov D, Nikolov P, Rogachev T |
| 5168 - 5173 |
On the decrepitation mechanism of MgNi and LaNi5-based electrodes studied by in situ acoustic emission
Etiemble A, Idrissi H, Roue L |
| 5174 - 5185 |
Characterization of a zinc-cerium flow battery
Leung PK, Ponce-de-Leon C, Low CTJ, Shah AA, Walsh FC |
| 5186 - 5190 |
Discharge reaction mechanism of room-temperature sodium-sulfur battery with tetra ethylene glycol dimethyl ether liquid electrolyte
Ryu H, Kim T, Kim K, Ahn JH, Nam T, Wang G, Ahn HJ |
| 5191 - 5196 |
Fabrication of a thin walled beta''-alumina electrolyte cells
Mali A, Petric A |
| 5197 - 5204 |
Model-based fault detection of hybrid fuel cell and photovoltaic direct current power sources
Zhang LY, Huang AQ |
| 5205 - 5208 |
Equivalent circuit components of nickel-cadmium battery at different states of charge
Norian KH |
| 5209 - 5214 |
Enhanced capacitance in partially exfoliated multi-walled carbon nanotubes
Wang GM, Ling YC, Qian F, Yang XY, Liu XX, Li Y |
| 5215 - 5222 |
Capacitance studies of cobalt compound nanowires prepared via electrodeposition
Asano Y, Komatsu T, Murashiro K, Hoshino K |
| 5223 - 5230 |
Electrolyte infiltration in phosphazene-based dye-sensitized solar cells
Fei ST, Lee SHA, Pursel SM, Basham J, Hess A, Grimes CA, Horn MW, Mallouk TE, Allcock HR |
