ELECTROCHEMICAL-CELL FOR COMPOSITION-DEPENDENT ELECTRONIC CONDUCTIVITY AND CHEMICAL DIFFUSION-COEFFICIENT MEASUREMENTS APPLIED TO MIXED-CONDUCTIVITY INTERCALATION COMPOUNDS

被引：10

作者：

PREIS, W ^{[1
]}

SITTE, W ^{[1
]}

机构：

[1] GRAZ TECH UNIV,INST PHYS & THEORET CHEM,A-8010 GRAZ,AUSTRIA

来源：

JOURNAL OF THE CHEMICAL SOCIETY-FARADAY TRANSACTIONS | 1995年 / 91卷 / 14期

关键词：

D O I：

10.1039/ft9959102127

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：

An electrochemical cell is described which allows composition-dependent measurements of the electronic conductivity and the chemical diffusion coefficient of mixed ionic-electronic conducting compounds. The composition of the compounds can be varied in situ by performing coulometric titrations according to Faraday's law. The electronic conductivity is obtained by means of dc four-point measurements with ionically blocking electrodes employing the van der Pauw method. The chemical diffusion coefficient is obtained from a combination of an electrochemical long-time polarization and short-time depolarization technique applied to the asymmetric cell proposed. The galvanic cell has been applied to investigate the transport properties of the intercalate AS(x)NbS(2) (0.60 < x < 0.77) at 100 degrees C. The chemical diffusion coefficient increases considerably with increasing silver content of the intercalate with values in the range of 10(-5) cm(2) s(-1). The electronic conductivity decreases with increasing silver concentration with typical values around 1000 S cm(-1). Additionally, the temperature dependence of the electronic conductivity of Ag0.6NbS2, indicates metallic behaviour of the silver intercalate. The variation of the conductivity with composition can roughly be interpreted in terms of a single-carrier (hole) rigid-band model.

引用

页码：2127 / 2132

页数：6

共 31 条

[1] DYNAMIC ASPECTS OF SOLID-SOLUTION CATHODES FOR ELECTROCHEMICAL POWER SOURCES [J].

ATLUNG, S ;

WEST, K ;

JACOBSEN, T .

JOURNAL OF THE ELECTROCHEMICAL SOCIETY, 1979, 126 (08) :1311-1321

[2]

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

[3]

Besenhard J., 1994, PROGR INTERCALATION, P457

[4] ORDER-DISORDER TRANSITION IN SILVER-INTERCALATED NIOBIUM DISULFIDE COMPOUNDS .2. MAGNETIC AND ELECTRICAL-PROPERTIES [J].

BOUWMEESTER, HJM ;

VANDERLEE, A ;

VANSMAALEN, S ;

WIEGERS, GA .

PHYSICAL REVIEW B, 1991, 43 (12) :9431-9435

[5] THE THERMODYNAMIC AND KINETIC-PROPERTIES OF SILVER INTERCALATED NIOBIUM DISULFIDE [J].

BOUWMEESTER, HJM .

SOLID STATE IONICS, 1985, 16 (1-4) :163-169

[6] ELECTRONIC-STRUCTURE AND BAND THEORY OF TRANSITION-METAL DICHALCOGENIDES [J].

DORAN, NJ .

PHYSICA B & C, 1980, 99 (1-4) :227-237

[7] THEORY AND PRACTICE OF A POWERFUL TECHNIQUE FOR ELECTROCHEMICAL INVESTIGATION OF SOLID-SOLUTION ELECTRODE MATERIALS [J].

DUDLEY, GJ ;

STEELE, BCH .

JOURNAL OF SOLID STATE CHEMISTRY, 1980, 31 (02) :233-247

[8] ELECTRONIC-PROPERTIES OF INTERCALATION COMPLEXES OF THE TRANSITION-METAL DICHALCOGENIDES [J].

FRIEND, RH ;

YOFFE, AD .

ADVANCES IN PHYSICS, 1987, 36 (01) :1-94

[9] ELECTROCHEMICAL-CELL FOR COMPOSITION DEPENDENT ELECTRONIC CONDUCTIVITY MEASUREMENTS ON MIXED CONDUCTORS AND APPLICATION TO SILVER TELLURIDES [J].

GRIENTSCHNIG, D ;

SITTE, W .

ZEITSCHRIFT FUR PHYSIKALISCHE CHEMIE NEUE FOLGE, 1990, 168 :143-159

[10] BOUNDED DIFFUSION IN SOLID-SOLUTION ELECTRODE POWDER COMPACTS .1. THE INTERFACIAL IMPEDANCE OF A SOLID-SOLUTION ELECTRODE (MXSSE) IN CONTACT WITH A M+-ION CONDUCTING ELECTROLYTE [J].

HONDERS, A ;

BROERS, GHJ .

SOLID STATE IONICS, 1985, 15 (03) :173-183

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