Effect of Ag on the microstructure and electrical properties of ZnO
Resource
Journal of the European Ceramic Society 27 (16): 4521-4527
Journal
Journal of the European Ceramic Society
Journal Volume
27
Journal Issue
16
Pages
4521-4527
Date Issued
2007
Date
2007
Author(s)
Abstract
Various amounts of silver particles, 0.08-7.7 mol%, are mixed with zinc oxide powder and subsequently co-fired at 800-1200 °C. The effects of Ag addition on the microstructural evolution and electrical properties of ZnO are investigated. A small Ag doping amount (<0.76 mol%) promotes the grain growth of ZnO; however, a reversed trend in grain growth is observed for a relatively larger Ag addition (>3.8 mol%). It is evident that a tiny amount of Ag (∼0.08 mol%) may dissolve into the ZnO lattice. High-resolution TEM observations give direct evidences on the segregation of Ag solutes at the ZnO grain boundaries. The grain boundary resistance of ZnO increases 35-fold with the presence of Ag solute segregates. The Ag-doped ZnO system exhibits a nonlinear electric current-voltage characteristic, confirming the presence of an electrostatic barrier at the grain boundaries. The barrier is approximately 2 V for a single grain boundary. © 2007 Elsevier Ltd. All rights reserved.
Subjects
Ag; Electrical properties; Impedance; Microstructure-final; ZnO
Other Subjects
Composition effects; Crystal microstructure; Current voltage characteristics; Doping (additives); Electric impedance; Grain boundaries; Grain growth; Microstructural evolution; Silver; Zinc oxide; Electrostatic barrier; Grain boundary resistance; Metal oxide ceramics; Composition effects; Crystal microstructure; Current voltage characteristics; Doping (additives); Electric impedance; Grain boundaries; Grain growth; Metal oxide ceramics; Microstructural evolution; Silver; Zinc oxide
Type
journal article
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