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Correlation between structural properties and electrical conductivity of porous carbon derived from hemp bast fiber: Fullerenes, Nanotubes and Carbon Nanostructures: Vol 0, No 0


Summary

A complete research of the correlation between the structural and morphological parameters and the frequency-temperature dependences of the conductivity of porous carbon supplies obtained by carbonization of hemp fibers has been carried out. The impact of therapy with nitric acid and extra annealing on the transport of cost carriers in carbon supplies carbonized within the temperature vary of 500–1000 °C has been established. Porous carbon supplies have been described as a heterophase system, through which extremely conductive graphitized particles are separated by low conductivity amorphous carbon, from the standpoint of the impact of carbonization temperature and modifications within the morphology of supplies attributable to acid therapy and annealing on the formation of conduction channels with the simultaneous implementation of fluctuation-assisted tunneling between graphitic clusters separated by low conductive limitations and the formation of conduction channels on account of contact of particular person graphitized carbon clusters. A mannequin has been constructed that relates the outcomes of measuring the precise floor space and pore measurement distribution, modifications within the measurement of graphite crystallites, and modifications in conductivity with temperature. The opportunity of making use of the idea of percolation conductivity to explain the cost transport has been analyzed and the percolation threshold has been established.

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