Effects of Pressure on the Electrical Conductivity of Some Organic Charge-Transfer Complexes

Abstract

The effects of pressure and temperature on the electrical conductivity of some highly conductive charge‐transfer complexes such as dibenzo[c, d]phenothiazine—dichlorodicyano‐p‐benzoquinone (2:1), dibenzo‐[c, d]phenothiazine—dibromodicyano‐p‐benzoquinone (3:2), tetrathiotetracene—o‐chloranil (3:1), tetrathiotetracene—o‐bromanil (3:1) complexes are reported. The resistivity of these complexes under pressure follows the usual exponential law; 1/σ=ρ=ρ₀ exp (E/kT). The measurements are carried out at a temperature range of 27°—120°C. The highest pressure applied is 40 kbar. The resistivity decreases with increasing pressure. However, this change is only of the order of 10 (from 1 to 30 000 bar). The activation energies also decrease with increasing applied pressure and the values in the tetrathiotetracene complexes become almost zero at about 35 kbar. The ρ₀ obtained for these complexes increases with increasing pressure. The effect of pressure on the electrical properties of the organic solids is discussed.