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Fizika Tverdogo Tela, 2018 Volume 60, Issue 4, Pages 677–686 (Mi ftt9228)

This article is cited in 2 papers

Semiconductors

Effect of carbon on the electrical properties of copper oxide-based bulk composites

Yu. E. Kalinin, M. A. Kashirin, V. A. Makagonov, S. Yu. Pankov, A. V. Sitnikov

Voronezh State Technical University

Abstract: The effect of carbon filler on the electrical resistance and the thermopower of copper oxide-based composites produced by ceramic technology by hot pressing has been studied. It is found that the dependences of the electrical resistivity on the filler concentration are characteristic by $S$-like curves that are typical of percolation systems; in this case, the resistivity decreases more substantially as the carbon content increases as compared to the decrease in thermopower value, which is accompanied by the existence of the maximum of the factor of thermoelectric power near the percolation threshold. The studies of the temperature dependences of the resistivity and the thermopower at low temperatures show that, in the range 240–300 K, the predominant mechanism of the electrotransfer of all the composites under study is the hopping mechanism. At temperatures lower than 240 K, the composites with a nanocrystalline CuO matrix have a hopping conductivity with a variable hopping distance over localized states of the matrix near the Fermi level, which is related to the conductivity over intergrain CuO boundaries. A schematic model of the band structure of nanocrystalline CuO with carbon filler is proposed on the base of the analysis of the found experimental regularities of the electrotransfer.

Received: 19.09.2017
Revised: 02.11.2017

DOI: 10.21883/FTT.2018.04.45674.272


 English version:
Physics of the Solid State, 2018, 60:4, 681–690

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