LITHIUM AND SODIUM INTERCALATION INTO VTE2

被引：11

作者：

GUZMAN, R ^{[1
]}

MORALES, J ^{[1
]}

TIRADO, JL ^{[1
]}

机构：

[1] UNIV CORDOBA,FAC CIENCIAS,DEPT QUIM INORGAN & INGN QUIM,AVDA SAN ALBERTO MAGNO S-N,E-14004 CORDOBA,SPAIN

来源：

JOURNAL OF MATERIALS CHEMISTRY | 1993年 / 3卷 / 12期

关键词：

INTERCALATION; LITHIUM; SODIUM; VANADIUM DITELLURIDE;

D O I：

10.1039/jm9930301271

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：

Lithium intercalation into monoclinic VTe2 has been carried out by the n-butyllithium technique and in Li\LiClO4(PC)\telluride test cells. Step potential electrochemical spectroscopy revealed several successive reduction peaks corresponding to lithium intercalation processes that occur by partial filling of the distorted octahedral sites in the interlayer space. For LiVTe2, an expansion of the Ch parameter normal to the layers of 0.35 angstrom was observed. Sodium intercalation was carried out in NaINaClO4(PC)\telluride cells. Lower cell voltages and a higher expansion of the lattice (DELTAc(h) almost-equal-to1.06 angstrom) were observed. The incremental capacity vs. composition curve is consistent with a maximum intercalation of 0.9 Na atoms per formula unit. The structural changes throughout intercalation and the alkali-metal ion diffusion coefficients are explained on the basis of the interlayer Te-Te interactions and V-V bonding in the structure of the solid.

引用

页码：1271 / 1274

页数：4

共 23 条

[1]

AURIEL C, 1991, CR ACAD SCI II, V313, P1255

[2] ELECTROCHEMICAL LITHIUM INTERCALATION INTO MISFIT LAYER SULFIDES [J].

BARRIGA, C ;

LAVELA, P ;

MORALES, J ;

PATTANAYAK, J ;

TIRADO, JL .

CHEMISTRY OF MATERIALS, 1992, 4 (05) :1021-1026

[3] THE CRYSTAL-STRUCTURE OF VANADIUM DITELLURIDE, V1+XTE2 [J].

BRONSEMA, KD ;

BUS, GW ;

WIEGERS, GA .

JOURNAL OF SOLID STATE CHEMISTRY, 1984, 53 (03) :415-421

[4] STRUCTURE AND BONDING IN THE CHALCOGENIDES OF THE EARLY TRANSITION-METALS [J].

BULLETT, DW .

POLYHEDRON, 1989, 8 (13-14) :1619-1624

[5] ORIGIN OF METAL CLUSTERING IN TRANSITION-METAL CHALCOGENIDE LAYERS MX2 (M = NB, TA, MO, RE - X = S, SE) [J].

CANADELL, E ;

LEBEUZE, A ;

ELKHALIFA, MA ;

CHEVREL, R ;

WHANGBO, MH .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1989, 111 (11) :3778-3782

[6] IMPORTANCE OF SHORT INTERLAYER TE-TE CONTACTS FOR THE STRUCTURAL DISTORTIONS AND PHYSICAL-PROPERTIES OF CDI2-TYPE LAYERED TRANSITION-METAL DITELLURIDES [J].

CANADELL, E ;

JOBIC, S ;

BREC, R ;

ROUXEL, J ;

WHANGBO, MH .

JOURNAL OF SOLID STATE CHEMISTRY, 1992, 99 (01) :189-199

[7] ELECTROCHEMICAL INTERCALATION OF LITHIUM INTO SOLID C60 [J].

CHABRE, Y ;

DJURADO, D ;

ARMAND, M ;

ROMANOW, WR ;

COUSTEL, N ;

MCCAULEY, JP ;

FISCHER, JE ;

SMITH, AB .

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 1992, 114 (02) :764-766

[8] STEP POTENTIAL ELECTROCHEMICAL SPECTROSCOPY OF PROTON INTERCALATION IN GAMMA-EPSILON-MNO2 [J].

CHABRE, YP .

JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1991, 138 (01) :329-330

[9] LITHIUM INTERCALATION INTO PBNB2S5, PBNBS3, SNNB2SE5, BIVS3, SNVSE3, AND PBNB2SE5 MISFIT LAYER CHALCOGENIDES [J].

HERNAN, L ;

MORALES, J ;

PATTANAYAK, J ;

TIRADO, JL .

JOURNAL OF SOLID STATE CHEMISTRY, 1992, 100 (02) :262-271

[10] BOUNDED DIFFUSION IN SOLID-SOLUTION ELECTRODE POWDER COMPACTS .2. THE SIMULTANEOUS MEASUREMENT OF THE CHEMICAL DIFFUSION-COEFFICIENT AND THE THERMODYNAMIC FACTOR IN LIXTIS2 AND LIXCOO2 [J].

HONDERS, A ;

DERKINDEREN, JM ;

VANHEEREN, AH ;

DEWIT, JHW ;

BROERS, GHJ .

SOLID STATE IONICS, 1985, 15 (04) :265-276

← 1 2 3 →