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Grain boundary carrier scattering in ZnO thin films: A study by temperature-dependent charge carrier transport measurements
Date Issued
01-04-2012
Author(s)
Muniswami Naidu, R. V.
Indian Institute of Technology, Madras
Verger, Arnaud
Indian Institute of Technology, Madras
Bhaskara Rao, S. V.N.
Jha, S. N.
Phase, D. M.
Abstract
In the present investigation, the effects of annealing in oxygen atmosphere on the electrical and optical properties of pulsed direct-current (DC) magnetron-sputtered ZnO thin films have been studied. With annealing, the electrical conductivity was found to increase from 2.3 S cm to 123 S cm. The optical transparency was also found to improve from 83% to 90%. The improvement in the electrical properties with annealing is attributed to the reduction of the grain boundary potential from 34 meV to 8 meV. X-ray photoelectron spectroscopy (XPS) measurements revealed oxygen deficiency in as-deposited films, whereas adequate incorporation of oxygen was observed in the annealed films. Ultraviolet photoelectron spectroscopy (UPS) measurements showed a shift of +0.8 eV in the Fermi level with annealing. This shift indicates significant changes in the electrical conductivity with annealing, which is due to an increase in the carrier concentration. © 2012 TMS.
Volume
41