Title :
Energy distribution of surface traps for elongated in the water and corona charged PTFE films
Author :
Rychkov, A.A. ; Boitzov, V.G. ; Shvetz, V.V.
Author_Institution :
Dept. of Tech. Sci., Russian State Pedagogical Univ., St. Petersburg, Russia
Abstract :
The influence of combined treatment (cyclic elongation in the water prior to charging) on positive homocharge storage and transport has been studied by thermally-stimulated surface potential relaxation measurement of PTFE films charged by corona discharge. Using experimental data and appropriate model, based on Simmons and Tan´s analysis, we determine the energy distribution of the surface traps. It has been found that the new specific group of traps appears in the surface density of localized states, as a result of treatment. Those new traps have the broad peak located at about E*s=1,8 eV and them attempt frequency ωs equals 9.1013 s -1. Conversely, for untreated samples we estimate the trap parameters to be about E*s=1,2 eV and ωs=4 1013 s-1. The chemistry of the PTFE surface have been examined before and after combined treatment by means of ESCA method. The different trap distributions can be explained by surface composition changes
Keywords :
corona; dielectric relaxation; electrets; electron traps; elongation; polymer films; surface potential; surface states; surface treatment; thermally stimulated currents; ESCA; PTFE film; charge storage; charge transport; corona charging; cyclic elongation; energy distribution; localized states; surface chemistry; surface composition; surface traps; thermally-stimulated surface potential relaxation; water treatment; Aluminum; Chemistry; Corona; Current measurement; Frequency; Stability; Surface charging; Surface discharges; Surface treatment; Water storage;
Conference_Titel :
Electrets, 1996. (ISE 9), 9th International Symposium on
Conference_Location :
Shanghai
Print_ISBN :
0-7803-2695-4
DOI :
10.1109/ISE.1996.578048
