Electrical characterization of vapor-phase-grown single-crystal ZnO
- 25 February 2002
- journal article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 80 (8), 1340-1342
- https://doi.org/10.1063/1.1452781
Abstract
Gold Schottky-barrier diodes ~SBDs! were fabricated on vapor-phase-grown single-crystal ZnO. Deep-level transient spectroscopy, using these SBDs, revealed the presence of four electron traps, the major two having levels at 0.12 eV and 0.57 below the conduction band. Comparison with temperature-dependent Hall measurements suggests that the 0.12 eV level has a temperature activated capture cross section with a capture barrier of about 0.06 eV and that it may significantly contribute to the free-carrier density. Based on the concentrations of defects other than this shallow donor, we conclude that the quality of the vapor-phase-grown ZnO studied here supercedes that of other single-crystal ZnO reported up to now.original file name: 02.0Keywords
This publication has 21 references indexed in Scilit:
- Intrinsicn-type versusp-type doping asymmetry and the defect physics of ZnOPhysical Review B, 2001
- Deep Level Transient Spectroscopy Depth Profile Measurements of Polycrystalline Zinc Oxide CeramicJapanese Journal of Applied Physics, 1996
- Admittance Spectroscopy of ZnO Crystals Containing AgJapanese Journal of Applied Physics, 1991
- Admittance Spectroscopy of Cu-Doped ZnO CrystalsJapanese Journal of Applied Physics, 1991
- Admittance Spectroscopy of ZnO CrystalsJapanese Journal of Applied Physics, 1990
- Properties of Deep Levels in ZnO Varistors and Their Effect on Current-Response CharacteristicsJapanese Journal of Applied Physics, 1980
- DLTS Measurement on Non-Ohmic Zinc Oxide Ceramic VaristorJapanese Journal of Applied Physics, 1980
- Deep-level transient spectroscopy: A new method to characterize traps in semiconductorsJournal of Applied Physics, 1974
- Nuclear Transmutations of the Lithium IsotopesPhysical Review B, 1938
- On Pre-Breakdown Phenomena in Insulators and Electronic Semi-ConductorsPhysical Review B, 1938