Conduction mechanisms in carbon-loaded composites

Results on the conductivity as a function of temperature of carbon black - polymer composites with a wide range of loadings are presented and discussed. Inter-particle transfers dominate the resistivity in the low-loading composites, and the conductivity is described quantitatively by the theory of fluctuation-induced tunnelling. This mechanism together with orbit shrinkage accounts for the observed positive magnetoresistance. In the highly loaded composites the conduction mechanism within the carbon black becomes important. This is found to be well described by theories of two-dimensional conduction in a disordered metal. The two-dimensional nature results from the graphite layered structure of carbon black. The magnetoresistance of the highly loaded composites is also found to be positive and quantitatively consistent with resulting from interaction effects. We are unable to explain the apparent suppression of the weak-localization contribution to their magnetoresistance.

[1]  B. Warren X-Ray Diffraction in Random Layer Lattices , 1941 .

[2]  Das Sarma S,et al.  Inelastic phase-coherence time in thin metal films. , 1987, Physical review. B, Condensed matter.

[3]  J. W. McClure,et al.  Energy Band Structure of Graphite , 1964, IBM J. Res. Dev..

[4]  Michels,et al.  Evidence for superlocalization on a fractal network in conductive carbon-black-polymer composites. , 1992, Physical review letters.

[5]  Y. Lévy,et al.  T3/7 Hopping Conductivity in a Class of Disordered Systems , 1987 .

[6]  T. V. Ramakrishnan,et al.  Disordered electronic systems , 1985 .

[7]  T. J. Fabish,et al.  Surface chemistry and the carbon black work function , 1984 .

[8]  Y. Koike,et al.  Low-temperature characteristics of Matsushita carbon resistors with and without magnetic fields , 1985 .

[9]  On tunneling effects in metal-deposited polyethylene-carbon black and polycarbonate-carbon black systems , 1986 .

[10]  H. Fukuyama,et al.  Magnetoresistance in the Anderson Localized States near the Metal-Nonmetal Transition , 1980 .

[11]  C. J. Adkins Microscopic aspects of conduction in discontinuous metal systems , 1982 .

[12]  Ping Sheng,et al.  Hopping Conductivity in Granular Disordered Systems , 1983 .

[13]  S. Ergun X-Ray Scattering by Very Defective Lattices , 1970 .

[14]  Kazuyuki Ohe,et al.  A New Resistor Having An Anomalously Large Positive Temperature Coefficient , 1971 .

[15]  R. Keyes,et al.  Hydrogen atom in a strong magnetic field , 1956 .

[16]  J. Woods,et al.  I-V characteristics of carbon black-loaded crystalline polyethylene , 1993 .

[17]  Ping Sheng,et al.  Fluctuation-Induced Tunneling Conduction in Carbon-Polyvinylchloride Composites , 1978 .

[18]  Ping Sheng,et al.  Fluctuation-induced tunneling conduction in disordered materials , 1980 .