Local and overall ionic conductivity in nanocrystalline CaF2

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

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  • Max-Planck-Institut für Festkörperforschung
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OriginalspracheEnglisch
Seiten (von - bis)159-164
Seitenumfang6
FachzeitschriftSOLID STATE IONICS
Jahrgang131
Ausgabenummer1
PublikationsstatusVeröffentlicht - 1 Juni 2000
VeranstaltungThe 1998 International Workshop on Interfacially Controlled Functional Materials: Electrical and Chemical Properties - Schloss Ringberg, Ger
Dauer: 8 März 199813 März 1998

Abstract

Ionic conductivity data on nanocrystalline CaF2 is evaluated. The d.c. conductivity is distinctly than larger in coarse-grained materials. The impedance plot exhibits two regimes: a high- and a low-frequency semicircle, the diameters of which increase with increasing grain size. The high-frequency semicircle reflects both bulk transport plus transport along the boundaries while the low-frequency semicircle describes the blocking effect of the grain boundaries. Absolute values and activation energy of the conductivity suggest dominating transport along space charge layers. The increase of the low frequency semicircle is due to increased current constriction because of the appearance of large pores.

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Local and overall ionic conductivity in nanocrystalline CaF2. / Puin, W.; Rodewald, S.; Ramlau, R. et al.
in: SOLID STATE IONICS, Jahrgang 131, Nr. 1, 01.06.2000, S. 159-164.

Publikation: Beitrag in FachzeitschriftKonferenzaufsatz in FachzeitschriftForschungPeer-Review

Puin W, Rodewald S, Ramlau R, Heitjans P, Maier J. Local and overall ionic conductivity in nanocrystalline CaF2. SOLID STATE IONICS. 2000 Jun 1;131(1):159-164. doi: 10.1016/S0167-2738(00)00630-5
Puin, W. ; Rodewald, S. ; Ramlau, R. et al. / Local and overall ionic conductivity in nanocrystalline CaF2. in: SOLID STATE IONICS. 2000 ; Jahrgang 131, Nr. 1. S. 159-164.
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T1 - Local and overall ionic conductivity in nanocrystalline CaF2

AU - Puin, W.

AU - Rodewald, S.

AU - Ramlau, R.

AU - Heitjans, P.

AU - Maier, J.

N1 - Funding Information: The authors thank the Deutsche Forschungsgemeinschaft and the Fonds der Chemischen Industrie for financial support.

PY - 2000/6/1

Y1 - 2000/6/1

N2 - Ionic conductivity data on nanocrystalline CaF2 is evaluated. The d.c. conductivity is distinctly than larger in coarse-grained materials. The impedance plot exhibits two regimes: a high- and a low-frequency semicircle, the diameters of which increase with increasing grain size. The high-frequency semicircle reflects both bulk transport plus transport along the boundaries while the low-frequency semicircle describes the blocking effect of the grain boundaries. Absolute values and activation energy of the conductivity suggest dominating transport along space charge layers. The increase of the low frequency semicircle is due to increased current constriction because of the appearance of large pores.

AB - Ionic conductivity data on nanocrystalline CaF2 is evaluated. The d.c. conductivity is distinctly than larger in coarse-grained materials. The impedance plot exhibits two regimes: a high- and a low-frequency semicircle, the diameters of which increase with increasing grain size. The high-frequency semicircle reflects both bulk transport plus transport along the boundaries while the low-frequency semicircle describes the blocking effect of the grain boundaries. Absolute values and activation energy of the conductivity suggest dominating transport along space charge layers. The increase of the low frequency semicircle is due to increased current constriction because of the appearance of large pores.

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U2 - 10.1016/S0167-2738(00)00630-5

DO - 10.1016/S0167-2738(00)00630-5

M3 - Conference article

AN - SCOPUS:0033702268

VL - 131

SP - 159

EP - 164

JO - SOLID STATE IONICS

JF - SOLID STATE IONICS

SN - 0167-2738

IS - 1

T2 - The 1998 International Workshop on Interfacially Controlled Functional Materials: Electrical and Chemical Properties

Y2 - 8 March 1998 through 13 March 1998

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