Abstract
Reproducible p-type Ag–S co-doped ZnO (ASZO) films were grown on glass substrate by a modified hydrothermal method, where reaction solution is separated from alkali solution and O2 is removed from autoclave to avoid deoxidation of Ag+ and oxidation of S2− in the solution. It is found that the Ag substitutes for the Zn in monovalent state (AgZn+) and the S for the O in bivalent state (SO2−) in the ASZO. Both AgZn+ and SO2− have two doping states, each AgZn+ is surrounded by 4O2− to form AgZn+ acceptor and each SO2− is surrounded by 4Zn2+, while AgZn+ bounds with nSO2− to form AgZn+–nSO2−(n≤4) complex acceptor. It is demonstrated that Ag doping can suppress the formation of interstitial Zn and O vacancies in the ASZO and S doping can enhance solubility of Ag in the ASZO. Hall measurement indicates that the p-type ASZO film has a hole density as high as 1018cm−3, which is much higher than that of ASZO prepared by magnetron sputtering. The mechanism of the formation of the p-type ASZO with high hole density is suggested in the present paper.
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