TSD current studies of iodine-doped polyvinyl-acetate thin films

Abstract

TSD current studies of thin films (thickness approximately 7000 AA) of iodine-doped polyvinyl-acetate have been made as a function of the polarizing field E_p. Polarized PVAc:I₂ films exhibit two TSD peaks at 327 and 398K with activation energies of 0.19 and 0.27 eV. At 300K, they show relaxation times of 8.40*10² and 6.54*10³ s respectively. The magnitude of the 327K peak increases with the increase of E_p from 0 to 1 kV cm^-1. Above this value of E_p, the peak starts decreasing and ultimately vanishes for E_p>or approximately=7 kV cm^-1. However, the 398K peak continues to increase as E_p increases from 0 to 9 kV cm^-1. Only one TSD peak (at 398K) has been observed in unpolarized PVAc:I₂ films. This has been attributed to the formation of the charge-transfer complexes between iodine and the main molecular chain of PVAc.