| 875 - 881 |
Novel sulfonated poly(ether ether ketone ketone)s for direct methanol fuel cells usage: Synthesis, water uptake, methanol diffusion coefficient and proton conductivity
Zhang G, Fu TZ, Shao K, Li XF, Zhao CJ, Na H, Zhang H |
| 882 - 887 |
Experimental research on water management in proton exchange membrane fuel cells
Yu LJ, Chen WC, Qin MJ, Ren GP |
| 888 - 893 |
Influence of CaO on structure and electrical conductivity of pyrochlore-type Sm2Zr2O7
Xia XL, Ouyang JH, Liu ZG |
| 894 - 901 |
Novel acid-base molecule-enhanced blends/copolymers for fuel cell applications
Guo MM, Liu BJ, Liu Z, Wang LF, Jiang ZH |
| 902 - 908 |
Improvement of the LiBH4 hydrogen desorption by inclusion into mesoporous carbons
Cahen S, Eymery JB, Janot R, Tarascon JM |
| 909 - 915 |
Synthesis of carbon-supported Pd-Sn catalyst by ultrasonic irradiation for oxygen reduction reaction
Kim J, Momma T, Osaka T |
| 916 - 928 |
A general electrolyte-electrode-assembly model for the performance characteristics of planar anode-supported solid oxide fuel cells
Hussain MM, Li X, Dincer I |
| 929 - 934 |
Integrated carbon composite bipolar plate for polymer-electrolyte membrane fuel cells
Yu HN, Hwang IU, Kim SS, Lee DG |
| 935 - 942 |
Assessing the catalyst processing for low temperature cofired ceramic-based direct methanol fuel cells
Gao Y, Munroe N, Kong XX, Jones K |
| 943 - 949 |
Influence of the phosphoric acid-doping level in a polybenzimidazole membrane on the cell performance of high-temperature proton exchange membrane fuel cells
Oono Y, Sounai A, Hori M |
| 950 - 957 |
Performance of a solid oxide fuel cell couple operated via in situ catalytic partial oxidation of n-butane
Horiuchi M, Katagiri F, Yoshiike J, Suganuma S, Tokutake Y, Kronemayer H, Bessler WG |
| 958 - 965 |
Blended Nafion (R)/SPEEK direct methanol fuel cell membranes for reduced methanol permeability
Tsai JC, Cheng HP, Kuo JF, Huang YH, Chen CY |
| 966 - 971 |
(Titanium, chromium) nitride coatings for bipolar plate of polymer electrolyte membrane fuel cell
Choi HS, Han DH, Hong WH, Lee JJ |
| 972 - 981 |
Synthesis and characterization of lanthanum silicate apatite by gel-casting route as electrolytes for solid oxide fuel cells
Jiang SP, Zhang L, He HQ, Yap RK, Xiang Y |
| 982 - 987 |
Synthesis of Pd/TiO2 nanotubes/Ti for oxygen reduction reaction in acidic solution
Fu Y, Wei ZD, Chen SG, Li L, Feng YC, Wang YQ, Ma XL, Liao MJ, Shen PK, Jiang SP |
| 988 - 993 |
Determination of occurrence of anodic excursion peaks by dynamic electrochemical impedance spectroscopy, atomic force microscopy and cyclic voltammetry
Darowicki K, Andrearczyk K |
| 994 - 998 |
Depression of proton conductivity in recast Nafion (R) film measured on flat substrate
Siroma Z, Kakitsubo R, Fujiwara N, Ioroi T, Yamazaki SI, Yasuda K |
| 999 - 1002 |
Cell performance of Pd-Sn catalyst in passive direct methanol alkaline fuel cell using anion exchange membrane
Kim J, Momma T, Osaka T |
| 1003 - 1007 |
Synthesis of La0.6Ca0.4Co0.8Ir0.2O3 perovskite for bi-functional catalysis in an alkaline electrolyte
Chang YM, Wu PW, Wu CY, Hsieh YC |
| 1008 - 1011 |
Fuel cell performance of templated Ru/Se/C-based catalysts
Garsuch A, Michaud X, Bohme K, Wagner G, Dahn JR |
| 1012 - 1015 |
Electro-oxidation of formic acid on carbon supported Pt-Os catalyst
Liu W, Huang JJ |
| 1016 - 1019 |
Nafion/polyaniline composite membranes specifically designed to allow proton exchange membrane fuel cells operation at low humidity
Yang JY, Shen PK, Varcoe J, Wei ZD |
| 1020 - 1022 |
Application of normal pulse voltammetry to the kinetic study of formic acid oxidation on a carbon supported Pd electrocatalyst
Wang YJ, Wu XC, Wu B, Gao Y |
| 1023 - 1031 |
Gas-liquid two-phase flow distributions in parallel channels for fuel cells
Zhang LF, Du W, Bi HT, Wilkinson DP, Stumper J, Wang HJ |
| 1032 - 1043 |
Optimization of La2O3-containing diopside based glass-ceramic sealants for fuel cell applications
Goel A, Tulyaganov DU, Kharton VV, Yaremchenko AA, Eriksson S, Ferreira JMF |
| 1044 - 1050 |
Life prediction of coated and uncoated metallic interconnect for solid oxide fuel cell applications
Liu WN, Sun X, Stephens E, Khaleel MA |
| 1051 - 1059 |
Computation of TPB length, surface area and pore size from numerical reconstruction of composite solid oxide fuel cell electrodes
Kenney B, Valdmanis M, Baker C, Pharoah JG, Karan K |
| 1060 - 1065 |
The effect of water content on the electrochemical impedance response and microstructure of Ni-CGO anodes for solid oxide fuel cells
Kim P, Brett DJL, Brandon NP |
| 1066 - 1073 |
An analytical model and parametric study of electrical contact resistance in proton exchange membrane fuel cells
Wu ZL, Wang SX, Zhang LH, Hu SJ |
| 1074 - 1082 |
Sensitivity analysis for solid oxide fuel cells using a three-dimensional numerical model
Kapadia S, Anderson WK |
| 1083 - 1092 |
Development of bipolar plates with different flow channel configurations for fuel cells
Boddu R, Marupakula UK, Summers B, Majumdar P |
| 1093 - 1099 |
High-temperature mechanical properties of a glass sealant for solid oxide fuel cell
Chang HT, Lin CK, Liu CK |
| 1100 - 1105 |
Performance of a proton exchange membrane fuel cell stack with thermally conductive pyrolytic graphite sheets for thermal management
Wen CY, Lin YS, Lu CH |
| 1106 - 1113 |
The performance of solid oxide fuel cells with Mn-Co electroplated interconnect as cathode current collector
Wu JW, Johnson CD, Gemmen RS, Liu XB |
| 1114 - 1119 |
Study on the processes of start-up and shutdown in proton exchange membrane fuel cells
Shen Q, Hou M, Liang D, Zhou ZM, Li XJ, Shao ZG, Yi BL |
| 1120 - 1126 |
Development of Pd-based membranes as hydrogen diffusion anodes
Rego R, Oliveira MCF, Esparbe I, Cabot PL |
| 1127 - 1131 |
The impact of sulfur on the performance of a solid oxide fuel cell (SOFC) system operated with hydrocarboneous fuel gas
Nagel FP, Schildhauer TJ, Sfeir J, Schuler A, Biollaz SMA |
| 1132 - 1140 |
Surface chemistry and morphology of the solid electrolyte interphase on silicon nanowire lithium-ion battery anodes
Chan CK, Ruffo R, Hong SS, Cui Y |
| 1141 - 1146 |
Improvement of cycle property of sulfur-coated multi-walled carbon nanotubes composite cathode for lithium/sulfur batteries
Yuan LX, Yuan HP, Qiu XP, Chen LQ, Zhu WT |
| 1147 - 1153 |
The effect of a Co-Al mixed metal oxide coating on the elevated temperature performance of a LiMn2O4 cathode material
Yang ZX, Yang WS, Evans DG, Zhao YY, Wei X |
| 1154 - 1163 |
Structural and magnetic properties of Li-x(MnyFe1-y)PO4 electrode materials for Li-ion batteries
Kopec M, Yamada A, Kobayashi G, Nishimura S, Kanno R, Mauger A, Gendron F, Julien CM |
| 1164 - 1166 |
Flower-like (NH4)(0.83)Na0.43V4O10.0.26H(2)O nano-structure for stable lithium battery electrodes
Fei HL, Shen ZR, Wang JG, Zhou HJ, Ding DT, Chen TH |
| 1167 - 1173 |
Electrochemical performance evaluation of polyaniline/lithium manganese nickel oxide composites synthesized using surfactant agents
Neves S, Canobre SC, Oliveira RS, Fonseca CP |
| 1174 - 1178 |
Are ionic liquids based on pyrrolidinium imide able to wet separators and electrodes used for Li-ion batteries?
Stefan CS, Lemordant D, Claude-Montigny B, Violleau D |
| 1179 - 1183 |
Investigation of discharge reaction mechanism of lithium vertical bar liquid electrolyte vertical bar sulfur battery
Ryu HS, Guo ZP, Ahn HJ, Cho GB, Liu HK |
| 1184 - 1189 |
Performance of Li-ion secondary batteries in low power, hybrid power supplies
Prakash S, Mustain WE, Kohl PA |
| 1190 - 1198 |
The partial state-of-charge cycle performance of lead-acid batteries
Takeuchi T, Sawai K, Tsuboi Y, Shiota M, Ishimoto S, Hirai N, Osumi S |
| 1199 - 1203 |
Investigation on electronically conductive additives to improve positive active material utilization in lead-acid batteries
Ponraj R, McAllister SD, Cheng IF, Edwards DB |
| 1204 - 1211 |
Electrochemical behavior and application of lead-lanthanum alloys for positive grids of lead-acid batteries
Li AJ, Cheni YM, Chen HY, Shu D, Li WS, Wang H, Dou CL, Zhang W, Chen S |
| 1212 - 1219 |
Vanadium redox battery: Positive half-cell electrolyte studies
Rahman F, Skyllas-Kazacos M |
| 1220 - 1230 |
Numerical modelling of a bromide-polysulphide redox flow battery Part 1: Modelling approach and validation for a pilot-scale system
Scamman DP, Reade GW, Roberts EPL |
| 1231 - 1239 |
Numerical modelling of a bromide-polysulphide redox flow battery. Part 2: Evaluation of a utility-scale system
Scamman DP, Reade GW, Roberts EPL |
| 1240 - 1246 |
Nafion/organically modified silicate hybrids membrane for vanadium redox flow battery
Teng XG, Zhao YT, Xi JY, Wu ZH, Qiu XP, Chen LQ |
| 1247 - 1250 |
Microstructural investigation and electrochemical property of Mg63Ni27Nd10 amorphous alloy
Huang LJ, Tang JG, Liang GY, Wang Y, Wu DC |
| 1251 - 1255 |
Improved electrochemical properties of amorphous Mg65Ni27La8 electrodes: Surface modification using graphite
Wu DC, Li L, Liang GY, Guo YL, Wu HB |
| 1256 - 1263 |
A simple method to prepare uniform-size nanoparticle TiO2 electrodes for dye-sensitized solar cells
Zhang YZ, Wu LH, Xie EQ, Duan HG, Han WH, Zhao JG |
| 1264 - 1269 |
Assessment and reuse of secondary batteries cells
Schneider EL, Kindlein W, Souza S, Malfatti CF |
| 1270 - 1277 |
High performance electrochemical capacitors from aligned carbon nanotube electrodes and ionic liquid electrolytes
Lu W, Qu LT, Henry K, Dai LM |
| 1278 - 1283 |
Fabrication of MnO2-pillared layered manganese oxide through an exfoliation/reassembling and oxidation process
Yuan JQ, Liu ZH, Qiao SF, Ma XR, Xu NC |
| 1284 - 1291 |
Influence of the mesoporous structure on capacitance of the RuO2 electrode
Kuratani K, Kiyobayashi T, Kuriyama N |
| 1292 - 1295 |
Electrochemically synthesized large area network of CoxNiyAlz layered triple hydroxides nanosheets: A high performance supercapacitor
Gupta V, Gupta S, Miura N |
| 1296 - 1301 |
Pyrococcus furiosus-immobilized anodized tubular titania cathode in a hydrogen production system
Yoon J, Bae S, Shim E, Joo H |
