RECHARGEABLE GAMMA-MNO2 FOR LITHIUM BATTERIES USING A SULFONE-BASED ELECTROLYTE AT 150-DEGREES-C

被引：5

作者：

BACH, S ^{[1
]}

BAFFIER, N ^{[1
]}

PEREIRARAMOS, JP ^{[1
]}

MESSINA, R ^{[1
]}

机构：

[1] CNRS,UM 28,ELECTROCHIM CATALYSE & SYNTHESE ORGAN LAB,F-94320 THIAIS,FRANCE

来源：

JOURNAL OF POWER SOURCES | 1993年 / 44卷 / 1-3期

关键词：

D O I：

10.1016/0378-7753(93)80204-3

中图分类号：

O64 [物理化学（理论化学）、化学物理学];

学科分类号：

070304 ; 081704 ;

摘要：

The electrochemical lithium intercalation in gamma-MnO2 as well as in the ramsdellite and pyrolusite phases has been studied in molten dimethylsulfone at 150-degrees-C. Two redox steps are evidenced: in the composition range 0<x<0.35-0.4, a slow decrease of the potential (3.8-3V) is observed while for 0.35-0.4<x<0.9 a voltage plateau appears at 2.95 V. Comparison of the chronopotentiometric curves for gamma-MnO2, ramsdellite and rutile forms prove that these two insertion processes cannot be assigned to lithium accommodation into ramsdellite and pyrolusite units. At this temperature, the lithium insertion process into gamma-MnO2 is found to be highly reversible on the whole lithium concentration range (0<x<0.95) and characterized by a high kinetics of lithium transport. D(Li) evaluated from potentiometric and voltammetric measurements is in the range 5x10(-9) cm2 s-1. During extended galvanostatic experiments performed at a discharge/charge rate of C, a high efficiency is recovered since, from an initial capacity of 300 A h kg-1, about 180 A h kg-1 are still available after the 20th cycle.

引用

页码：569 / 575

页数：7

共 18 条

[1] SOL-GEL SYNTHESIS OF MANGANESE OXIDES [J].

BACH, S ;

HENRY, M ;

BAFFIER, N ;

LIVAGE, J .

JOURNAL OF SOLID STATE CHEMISTRY, 1990, 88 (02) :325-333

[2]

Basu S., 1979, Fast Ion Transport in Solids. Electrodes and Electrolytes, P149

[3]

BURNS RG, 1975, MANGANESE DIOXIDE S, P306

[4] AVAILABLE OXYGEN IN MANGANESE DIOXIDE [J].

KATZ, MJ ;

CLARKE, RC ;

NYE, WF .

ANALYTICAL CHEMISTRY, 1956, 28 (04) :507-508

[5] SECONDARY LI CELLS .1. A COMPARISON OF THE BEHAVIOR OF CATHODES BASED ON PURE AND LITHIATED MANGANESE OXIDES [J].

LI, L ;

PISTOIA, G .

SOLID STATE IONICS, 1991, 47 (3-4) :231-240

[6] CHARACTERIZATION OF THE LI/MNO2 MULTISTEP DISCHARGE [J].

NARDI, JC .

JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1985, 132 (08) :1787-1791

[7] MANGANESE OXIDES FOR A LITHIUM SECONDARY BATTERY - COMPOSITE DIMENSIONAL MANGANESE OXIDE (CDMO) [J].

NOHMA, T ;

SAITO, T ;

FURUKAWA, N ;

IKEDA, H .

JOURNAL OF POWER SOURCES, 1989, 26 (3-4) :389-396

[8] LITHIUM-CONTAINING MANGANESE-DIOXIDE (COMPOSITE DIMENSIONAL MANGANESE OXIDE, CDMO) AS POSITIVE MATERIAL FOR A LITHIUM SECONDARY BATTERY [J].

NOHMA, T ;

YAMAMOTO, Y ;

NISHIO, K ;

NAKANE, I ;

FURUKAWA, N .

JOURNAL OF POWER SOURCES, 1990, 32 (04) :373-379

[9] ELECTROCHEMISTRY OF MANGANESE-DIOXIDE IN LITHIUM NONAQUEOUS CELLS .4. JAHN-TELLER DEFORMATION OF MNO6-OCTAHEDRON IN LIXMNO2 [J].

OHZUKU, T ;

KATO, J ;

SAWAI, K ;

HIRAI, T .

JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1991, 138 (09) :2556-2560

[10] ELECTROCHEMISTRY OF MANGANESE-DIOXIDE IN LITHIUM NONAQUEOUS CELL .2. X-RAY DIFFRACTIONAL AND ELECTROCHEMICAL CHARACTERIZATION ON DEEP DISCHARGE PRODUCTS OF ELECTROLYTIC MANGANESE-DIOXIDE [J].

OHZUKU, T ;

KITAGAWA, M ;

HIRAI, T .

JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1990, 137 (01) :40-46

← 1 2 →