Improvements of spatial resistivity distribution in transparent conducting Al-doped ZnO thin films deposited by DC magnetron sputtering

The relationship between two techniques developed for improving the resistivity distribution on the substrate surface in transparent conducting Al-doped ZnO (AZO) thin films prepared at a temperature of 200 degrees C by dc magnetron sputtering depositions (dc-MSD) using various sintered AZO targets has been investigated One improvement method superimposes an rf component onto the dc-MSD (rf dc-MSD) The other improvement method uses conventional dc-MSD with a low resistivity AZO target prepared under optimized conditions An improvement of resistivity distribution resulted from a decrease in the resistivity of targets used in the preparation of AZO thin films by dc-MSD either with or without superimposing rf power However, the resistivity distribution of AZO thin films resulting from depositions using rf-superimposed dc-MSD with lower-resistivity targets was not significantly improved over that of AZO thin films prepared by conventional dc-MSD using targets with the same low resistivities. The use of rf superimposition only resulted in Improved resistivity distribution in thin films when the AZO targets had a resistivity higher than around 1 x 10(-3) Omega cm. It should be noted that sintered AZO targets optimized for the preparation of AZO thin films with lower resistivity as well as more uniform resistivity distribution on the substrate surface tended to exhibit a lower resistivity. (C) 2009 Elsevier B V. All rights reserved