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Electrical and galvanomagnetic properties of nanoporous carbon samples impregnated with bromine

Authors :
S. K. Gordeev
V. V. Popov
R. N. Kyutt
A. M. Danishevskii
Source :
Physics of the Solid State. 55:1487-1493
Publication Year :
2013
Publisher :
Pleiades Publishing Ltd, 2013.

Abstract

Nanoporous carbon samples with a large specific surface area can be filled with heavier elements or their compounds, which makes it possible to investigate the interaction of their electronic subsystems with carbon. One of the elements convenient for filling pores of carbon materials is bromine. Impregnation of nanoporous carbon samples with bromine causes the occurrence of the processes of micropore filling, monolayer adsorption, and intercalation. It has been found that samples impregnated with bromine substantially change their electrical and galvanomagnetic properties, and these changes depend on the structure of the samples. It has been shown that, if in the skeleton of a porous carbon sample there is a fraction of graphite clusters, the impregnation of the sample with bromine increases the concentration of charged carriers (holes). But when the sample has a quasi-amorphous structure, the injection of bromine into the sample leads to the appearance of a certain concentration of electrons in addition to charged mobile holes of the initial sample; i.e., the electrical conductivity becomes bipolar. In the former case, bromine molecules intercalate graphite clusters and, since bromine is an acceptor during intercalation of graphite, the hole concentration in the carbon skeleton network increases. In the latter case, bromine molecules can only be adsorbed on pore walls. As a result, the adsorption interaction between the electron shells of bromine molecules and the carbon surface leads to the formation of a donor layer near the surface and to the generation of electrons in the carbon skeleton network.

Details

ISSN :
10906460 and 10637834
Volume :
55
Database :
OpenAIRE
Journal :
Physics of the Solid State
Accession number :
edsair.doi...........a626c3b29f83b81b550cbe8830cc6a11