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Proceedings of the Eighth International Meeting on Lithium Batteries - Nagoya, Japan, 16-21 June 1996 - Part I - Oral Presentations - Preface
Yamamoto O, Ogumi Z |
| 43 - 51 |
Polymer and salt selection for lithium polymer batteries
Sanchez JY, Alloin F, Benrabah D, Arnaud R |
| 52 - 58 |
Investigation on lithium/polymer electrolyte interface for high performance lithium rechargeable batteries
Borghini MC, Mastragostino M, Zanelli A |
| 59 - 64 |
Chemical properties of various organic electrolytes for lithium rechargeable batteries 1. Characterization of passivating layer formed on graphite in alkyl carbonate solutions
Mori S, Asahina H, Suzuki H, Yonei A, Yokoto K |
| 65 - 68 |
Thin film solid electrolytes and electrodes for rechargeable lithium-ion batteries
Schoonman J, Kelder EM |
| 69 - 74 |
Passivity of lithium in organic solvents
Rahner D, Machill S, Siury K |
| 75 - 77 |
Safety and reliability considerations for lithium batteries
Levy SC |
| 78 - 81 |
The 200 V 2 kWh energy storage multicell system with 25 Wh Li/LiV3O8 single cells
Takei K, Terada N, Iwahori T, Tanaka T, Mishima H, Takeuchi K |
| 82 - 86 |
Future prospects of the lithium metal anode
Takehara Z |
| 87 - 90 |
Will advanced lithium-alloy anodes have a chance in lithium-ion batteries?
Besenhard JO, Yang J, Winter M |
| 91 - 98 |
Recent studies on the correlation between surface chemistry, morphology, three-dimensional structures and performance of Li and Li-C intercalation anodes in several important electrolyte systems
Aurbach D, Zaban A, Ein-Eli Y, Weissman I, Chusid O, Markovsky B, Levi M, Levi E, Schechter A, Granot E |
| 99 - 101 |
Recent trends in carbon negative electrode materials
Kasuh T, Mabuchi A, Tokumitsu K, Fujimoto H |
| 102 - 105 |
High-capacity lithium-ion cells using graphitized mesophase-pitch-based carbon fiber anodes
Ohsaki T, Kanda M, Aoki Y, Shiroki H, Suzuki S |
| 106 - 109 |
Lithium intercalation in heat-treated petroleum cokes
Tran TD, Spellman LM, Goldberger WM, Song X, Kinoshita K |
| 110 - 113 |
Study of the carbon material electrolyte interface
Yazami R, Deschamps M, Genies S, Frison JC |
| 114 - 119 |
A key technology to improve the cyclic performances of carbonaceous materials for lithium secondary battery anodes
Takamura T, Awano H, Ura T, Sumiya K |
| 120 - 125 |
On the behavior of the LixNiO2 system: an electrochemical and structural overview
Delmas C, Peres JP, Rougier A, Demourgues A, Weill F, Chadwick A, Broussely M, Perton F, Biensan P, Willmann P |
| 126 - 130 |
LiNi1-xCoxO2 prepared at low temperature using beta-Ni1-xCoxOOH and either LiNO3 or LiOH
Fujita Y, Amine K, Maruta J, Yasuda H |
| 131 - 134 |
Innovative insertion material of LiAl1/4Ni3/4O2 (R(3)over-bar-m) for lithium-ion (shuttlecock) batteries
Ohzuku T, Yanagawa T, Kouguchi M, Ueda A |
| 135 - 138 |
Organosulfur polymer batteries with high energy density
Oyama N, Tatsuma T, Sotomura T |
| 139 - 144 |
Microvoltammetric studies on single particles of battery active materials
Uchida I, Fujiyoshi H, Waki S |
| 145 - 152 |
Synthesis and electrochemical properties of lithium iron oxides with layer-related structures
Kanno R, Shirane T, Inaba Y, Kawamoto Y |
| 153 - 158 |
Structural stability of LiMn2O4 electrodes for lithium batteries
Thackeray MM, Mansuetto MF, Bates JB |
| 159 - 165 |
New inverse spinel cathode materials for rechargeable lithium batteries
Fey GTK, Wang KS, Yang SM |
| 166 - 172 |
Lithium manganese oxides for rechargeable lithium batteries
Nitta Y, Okamura K, Nagayama M, Ohta A |
| 173 - 186 |
Panel discussion - Future prospects of lithium batteries
Owens B, Osaka T, Ohta A, Takeuchi E, Takamura T, Gibbard F, Abraham KM, Megahed S, Kozawa A, Ishikawa R, Walk CR, Blomgren G, Imai T, Kurokawa H, Schoonman J, Nakajima K, Atanasoski R, Tanaka T, Moy R, Yazami R, Broussely M, Yagasaki E, Yao CY, Suzuki K, Besenhard J, Peled E, Kuroki M, Levy S, Tatsumi K, Armand M |
