Влияние структурных особенностей фуллеренсодержащего материала на его резистивные свойства

Abstract

The results of studies of the resistive properties of the carbon composite based on C60 fullerenes obtained by plasma-chemical method of synthesis and the method atomization of graphite are presented. Fullerene-containing materials obtained by the method of plasma-chemical synthesis and low-temperature Cracking were used as a substrate. The range of relative contents of the nanostructured phase was 2-25%. Variation of the source materials obtained by different ways allowed conduct a comparative analysis of the dependence of the conducting properties of the carbon composite from the concentration of C60. In the process of measuring electrical characteristics, a wide spread of parameters was observed. This is due to the high porosity of the material. These phenomena are characteristic of percolation mechanisms and can be described by percolation theory. The obtained results have an error in the permissible range (not more than 10%), which may allow in the future to obtain stable instrument elements based on the carbon powder composite.