| 1 - 8 |
The origin of capacity loss in the pocket plate cadmium electrode
Simic N, Sjovall R, Palmqvist U, Ahlberg E |
| 9 - 13 |
Influence of composition and acid treatment on proton conduction of composite polybenzimidazole membranes
Staiti P, Minutoli M |
| 14 - 19 |
Rh based catalysts for indirect internal reforming ethanol applications in molten carbonate fuel cells
Freni S |
| 20 - 25 |
Performance of a solid oxide fuel cell utilizing hydrogen sulfide as fuel
Liu M, He P, Luo JL, Sanger AR, Chuang KT |
| 26 - 35 |
High thermal conductivity negative electrode material for lithium-ion batteries
Maleki H, Selman JR, Dinwiddie RB, Wang H |
| 36 - 39 |
Performance of polyaniline electrosynthesized in the presence of trichloroacetic acid as a battery cathode
Venancio EC, Motheo AJ, Amaral FA, Bocchi N |
| 40 - 50 |
Two-phase flow and transport in the air cathode of proton exchange membrane fuel cells
Wang ZH, Wang CY, Chen KS |
| 51 - 62 |
Experimental study on the dynamic characteristics of kW-scale molten carbonate fuel cell systems
Kang BS, Koh JH, Lim HC |
| 63 - 67 |
Si-O network encapsulated graphite-silicon mixtures as negative electrodes for lithium-ion batteries
Ng SB, Lee JY, Liu ZL |
| 68 - 73 |
Surface modification of graphite by coke coating for reduction of initial irreversible capacity in lithium secondary batteries
Yoon S, Kim H, Oh SM |
| 74 - 77 |
Electrochemical characteristics of graphite, coke and graphite/coke hybrid carbon as negative electrode materials for lithium secondary batteries
Kida Y, Yanagida K, Funahashi A, Nohma T, Yonezu I |
| 78 - 84 |
Optimal composition of polymer electrolyte fuel cell electrodes determined by the AC impedance method
Song JM, Cha SY, Lee WM |
| 85 - 91 |
Lithium insertion in carbons prepared from phosphorus-containing polymers
Xiang HQ, Fang SB, Jiang YY |
| 92 - 96 |
Study on the insertion behaviors of Lithium-ions into CoFe3Sb12 based electrodes
Zhang LJ, Zhao XB, Jiang XB, Lv CP, Cao GS |
| 97 - 101 |
Carbon anodes prepared from graphite particles pretreated in a gelatine solution
Drofenik J, Gaberscek M, Dominko R, Bele M, Pejovnik S |
| 102 - 107 |
Zn4Sb3(-C-7) powders as a potential anode material for lithium-ion batteries
Cao GS, Zhao XB, Li T, Lu CP |
| 108 - 111 |
Lithium intercalation characteristics of B-C-N and C-B-Si-N carbon alloys
Huang H, Kelder EM, Schoonman J |
| 112 - 121 |
Benchmarking of chemical flowsheeting software in fuel cell applications
Kivisaari T, van der Laag PC, Ramskold A |
| 122 - 128 |
Key factors controlling the electrochemical performance of the cation-deficient mixed spinel oxide Mn2.2Co0.27O4 as cathode in 3 V rechargeable lithium batteries
Lavela P, Sanchez L, Tirado JL, Bach S, Pereira-Ramos JP |
| 129 - 131 |
Triethanolamine as an additive to the anode to improve the rechargeability of alkaline manganese dioxide batteries
Sharma Y, Aziz M, Yusof J, Kordesch K |
| 132 - 136 |
Cycling behavior of oxysulfide spinel LiCr0.19Mn1.81O3.98S0.02 cathode material which shows no capacity loss in the 3-V region
Sun YK, Oh IH |
| 137 - 141 |
Effect of solvents and solvent mixtures on intercalation/de-intercalation behaviour of Li+ and ClO4- ions in polypropylene-graphite composite electrodes
Suryanarayanan V, Noel M |
