| 1 - 1 |
Proceedings of International Symposium on Rechargeable Lithium Batteries - Kyoto, Japan - 14-16 November, 1999 - Preface
Scrosati B |
| 2 - 8 |
Solid state electrolytes: overview of materials and applications during the last third of the Twentieth Century
Owens BB |
| 9 - 12 |
Intercalation chemistry and chemical bonding
Hagenmuller P |
| 13 - 19 |
Gelification of liquid-polymer systems: a valid approach for the development of various types of polymer electrolyte membranes
Panero S, Scrosati B |
| 20 - 26 |
Characterization of composite electrolytes based on a hyper-branched polymer
Wen ZY, Itoh T, Ikeda M, Hirata N, Kubo M, Yamamoto O |
| 27 - 32 |
Characteristics of the electrolyte with fluoro organic lithium salts
Kita F, Sakata H, Sinomoto S, Kawakami A, Kamizori H, Sonoda T, Nagashima H, Nie J, Pavlenko NV, Yagupolskii YL |
| 33 - 38 |
Conductivity enhancement of polyacrylonitrile-based electrolytes by addition of cascade nitrile compounds
Tsutsumi H, Matsuo A, Takase K, Doi S, Hisanaga A, Onimura K, Oishi T |
| 39 - 44 |
High energy Li-ion rechargeable battery using thin lithium film composite separator
Zeng SM, Moses PR |
| 45 - 51 |
Charge/discharge efficiency improvement by the incorporation of conductive carbons in the carbon anode of Li-ion batteries
Takamura T, Saito M, Shimokawa A, Nakahara C, Sekine K, Maeno S, Kibayashi N |
| 52 - 58 |
Advanced in situ methods for the characterization of practical electrodes in lithium-ion batteries
Novak P, Panitz JC, Joho F, Lanz M, Imhof R, Coluccia M |
| 59 - 63 |
Electrochemical characteristics of Mg-Ni alloys as anode materials for secondary Li batteries
Kim H, Park B, Sohn HJ, Kang T |
| 64 - 69 |
Lithium insertion into Sn- and SnSbx-based composite electrodes in solid polymer electrolytes
Yang J, Takeda Y, Li Q, Imanishi N, Yamamoto O |
| 70 - 75 |
Dispersion of Sn and SnO on carbon anodes
Lee JY, Zhang RF, Liu ZL |
| 76 - 81 |
Lithium nickelate electrodes with enhanced high-temperature performance and thermal stability
Arai H, Tsuda M, Sakurai Y |
| 82 - 88 |
The effects of sintering time on the structure and electrochemical properties of Li(Ni0.8Co0.2)O-2
Gover R, Kanno R, Mitchell B, Hirano A, Kawamoto Y |
| 89 - 94 |
Low-temperature synthesis of lithium nickelate positive active material from nickel hydroxide for lithium cells
Maruta J, Yasuda H, Yamachi M |
| 95 - 102 |
Solid-state Li-7 NMR studies of inverse spinel LiNixCo1-xVO4 cathode materials
Chu PP, Huang DL, Fey GTK |
| 103 - 108 |
Capacity fading of LiMn2O4 electrode synthesized by the emulsion drying method
Myung ST, Chung HT, Komaba S, Kumagai N, Gu HB |
| 109 - 115 |
Microvoltammetry for cathode materials at elevated temperatures: electrochemical stability of single particles
Dokko K, Horikoshi S, Itoh T, Nishizawa M, Mohamedi M, Uchida I |
| 116 - 125 |
The possibility of voltage prediction from the Coulomb potential created by the atoms of a cathode active material for Li ion cells
Yamaki J, Egashira M, Okada S |
