| 1 - 10 |
Electroactivity of tin modified platinum electrodes for ethanol electrooxidation
Simoes FC, dos Anjos DM, Vigier F, Leger JM, Hahn F, Coutanceau C, Gonzalez ER, Tremiliosi G, de Andrade AR, Olivi P, Kokoh KB |
| 11 - 17 |
Voltage reversal during microbial fuel cell stack operation
Oh SE, Logan BE |
| 18 - 24 |
Electrochemical synthesis of Fe-Mo and Fe-Mo-Pt alloys and their electrocatalytic activity for methanol oxidation
Hoor FS, Tharamani CN, Ahmed MF, Mayanna SM |
| 25 - 31 |
Hydrogen crossover in high-temperature PEM fuel cells
Cheng X, Zhang JL, Tang YH, Song CJ, Shen J, Song DT, Zhang JJ |
| 32 - 38 |
L-Ascorbic acid as an alternative fuel for direct oxidation fuel cells
Fujiwara N, Yamazaki SI, Siroma Z, Ioroi T, Yasuda K |
| 39 - 46 |
Performance of La0.75Sr0.25Cr0.5Mn0.5O3-delta perovskite-structure anode material at lanthanum gallate electrolyte for IT-SOFC running on ethanol fuel
Huang B, Wang SR, Liu RZ, Ye XE, Nie HW, Sun XE, Wen TL |
| 47 - 52 |
Sulfonated polyimide/PTFE reinforced membrane for PEMFCs
Wang L, Yi BL, Zhang HM, Liu YH, Xing DM, Shao ZG, Cai YH |
| 53 - 57 |
Transport properties of fast proton conducting mesoporous silica xerogels
Colomer MT, Rubio F, Jurado JR |
| 58 - 63 |
Enhanced performance of a single-chamber solid oxide fuel cell with an SDC-impregnated cathode
Wei B, Lu Z, Huang XQ, Liu ML, Chen KF, Su WH |
| 64 - 68 |
Preparation and electrochemical properties of a SM2-xSrxNiO4 cathode for an IT-SOFC
Li Q, Fan Y, Zhao H, Sun LP, Huo LH |
| 69 - 73 |
Nanocrystaline tungsten carbide supported Au-Pd electrocatalyst for oxygen reduction
Nie M, Shen PK, Wei ZD |
| 74 - 78 |
High performance membrane-electrode assembly based on a surface-modified membrane
Han S, Lee JW, Kwak C, Chai GS, Son IH, Jang MY, An SG, Cho SY, Kim JY, Kim HW, Serov AA, Yoo Y, Nam KH |
| 79 - 83 |
SPPSU-based hybrid proton conducting polymeric electrolytes for intermediate temperature PEMFCs
Licoccia S, Di Vona ML, D'Epifanio A, Ahmed Z, Bellitto S, Marani D, Mecheri B, de Bonis C, Trombetta M, Traversa E |
| 84 - 89 |
Effect of SDC-impregnated LSM cathodes on the performance of anode-supported YSZ films for SOFCs
Chen KF, Lu Z, Ai N, Chen XJ, Hu JY, Huang XQ, Su WH |
| 90 - 93 |
Electrochemical performance of IT-SOFCs with a double-layer anode
Yin YH, Li SY, Xia CR, Meng GY |
| 94 - 99 |
Polyelectrolyte complexes of chitosan and phosphotungstic acid as proton-conducting membranes for direct methanol fuel cells
Cui ZM, Liu CP, Lu TH, Xing W |
| 100 - 110 |
Electrochemical AC impedance model of a solid oxide fuel cell and its application to diagnosis of multiple degradation modes
Gazzarri JI, Kesler O |
| 111 - 117 |
Intermediate temperature solid oxide fuel cell based on BaIn0.3Ti0.7O2.85 electrolyte
Prakash D, Delahaye T, Joubert O, Caldes MT, Piffard Y |
| 118 - 129 |
Engineering model of a passive planar air breathing fuel cell cathode
O'Hayre R, Fabian T, Litster S, Prinz FB, Santiago JG |
| 130 - 138 |
Prediction of transient response for a 25-cm(2) PEM fuel cell
Shimpalee S, Spuckler D, Van Zee JW |
| 139 - 144 |
Improvement of solid oxide fuel cell performance by using non-uniform potential operation
Vivanpatarakij S, Assabumrungrat S, Laosiripojana N |
| 145 - 150 |
Modeling a SOFC stack based on GA-RBF neural networks identification
Wu XJ, Zhu XJ, Cao GY, Tu HY |
| 151 - 161 |
Analysis of the energy efficiency of an integrated ethanol processor for PEM fuel cell systems
Francesconi JA, Mussati MC, Mato RO, Aguirre PA |
| 162 - 170 |
Electrode structure analysis and surface characterization for lithium-ion cells simulated low-Earth-orbit satellite operation I. Electrochemical behavior and structure analysis
Wang XM, Sakiyama Y, Takahashi Y, Yamada C, Naito H, Segami G, Hironaka T, Hayashi E, Kibe K |
| 171 - 177 |
NixCu6-xSn5 alloys as negative electrode materials for rechargeable lithium batteries
Zhang JJ, Zhang YM, Zhang X, Xia YY |
| 178 - 184 |
Effect of Cr doping on the structural, electrochemical properties of Li[Li0.2Ni0.2-x/2Mn0.6-x/2Crx]O-2 (x=0, 0.02, 0.04, 0.06, 0.08) as cathode materials for lithium secondary batteries
Hao LF, Zhang M, Yuan HT, Zhao M, Guo H, Wang W, Di Zhou X, Wang YM |
| 185 - 191 |
Preparation and characterization of sub-micro LiNi0.5-xMn1.5+xO4 for 5V cathode materials synthesized by an ultrasonic-assisted co-precipitation method
Yi TF, Hu XG |
| 192 - 199 |
Electrochemical behavior of surface-modified petroleum cokes in propylene carbonate containing solvents
Naga K, Nakajima T, Aimura S, Ohzawa Y, Zemva B, Mazej Z, Groult H, Yoshida A |
| 200 - 205 |
A simple, cheap soft synthesis routine for LiFeP04 using iron(III) raw material
Wang LN, Zhang ZG, Zhang KL |
| 206 - 211 |
Fabrication of CuO film with network-like architectures through solution-immersion and their application in lithium ion batteries
Wang HB, Pan QM, Zhao HW, Yin GP, Zuo PJ |
| 212 - 216 |
Electrochemical performance of Li4/3Ti5/3O4/Li1+x(Ni1/3Co1/3Mn1/3)(1-x)O-2 cell for high power applications
Lu W, Liu J, Sun YK, Amine K |
| 217 - 222 |
Ionic liquids based on aliphatic tetraalkylammonium dications and TFSI anion as potential electrolytes
Zhang Z, Yang L, Luo S, Tian M, Tachibana K, Kamijima K |
| 223 - 227 |
A low-temperature reaction route to high rate and high capacity LiNi0.5Mn1.5O4
Fang HS, Li LP, Li GS |
| 228 - 233 |
Influence of rare earth content on Mm-based AB(5) metal hydride alloys for Ni-MH batteries - An X-ray fluorescence study
Ananth MV, Raju M, Manimaran K, Balachandran G, Nair LM |
