Electrical conductivity of paper based on single-wall and multiwall nanotubes

The resistance of thin film paper based on carbon nanotubes (CNTs) and manufactured by various methods is studied. The resistance of the paper is analyzed in the framework of the following known models: the Mott hopping mechanism, the hopping mechanism involving a relatively high concentration of various defects in a CNT, and the mechanism that takes into account the long-range Coulomb interaction (a Luttinger liquid). It is demonstrated that the temperature dependence of the resistance is related to the CNT structure, imperfection, and orientation in the paper. It is concluded that the dimension of the resistance is three.