Static and dynamic conductivity of nanostructured carbonaceous shungite geomaterials

At the present time, the development of shielding screens from electromagnetic radiation based on composite carbon-containing materials through selecting the concentration and distribution of carbon and a binder has great application potential. Shungite rocks are a naturally occurring carbon-mineral...

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Bibliographic Details
Published in:Materials chemistry and physics 2019-03, Vol.226, p.195-203
Main Authors: Golubev, Yevgeny A., Antonets, Igor V., Shcheglov, Vladimir I.
Format: Article
Language:English
Subjects:
Carbon
Carbon content
Conductivity
Electromagnetic radiation
Geomaterials
Graphene-containing shungite carbon
Materials selection
Microwave radiation
Microwaves
Reflecting properties
Rocks
Screens
Static and dynamic conductivity
Thin plates
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Summary:At the present time, the development of shielding screens from electromagnetic radiation based on composite carbon-containing materials through selecting the concentration and distribution of carbon and a binder has great application potential. Shungite rocks are a naturally occurring carbon-mineral composite with carbon content from 1 to 97%.This paper presents the results of the study of reflection from thin plates prepared from shungite rocks with different carbon contents (from 3 to 97 at.%) in the microwave radiation range of 8–12 GHz. The effect of the carbon content and distribution of the quartz in the carbon matrix on reflecting properties of shungites is characterized. The dynamic and static conductivity of shungite samples with a carbon content of 3–97% was calculated. Significant difference between static and dynamic conductivity for samples with the small carbon content was found. [Display omitted] •Flexible, thin reflective coatings from natural shungites were fabricated.•Dynamic conductivity (DC) and static conductivity (SC) of shungite were measured.•The greatest difference between DC and SC is observed for low-carbon shungites.•Multilayer graphene nanostructures determine the DC at high carbon contents.•Microstructure of shungites determine the DC at low carbon contents.
ISSN:0254-0584
1879-3312
DOI:10.1016/j.matchemphys.2019.01.033