2009
DOI: 10.1007/s11664-009-0973-2
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Shallow and Deep Centers in As-Grown and Annealed MgZnO/ZnO Structures with Quantum Wells

Abstract: Shallow and deep centers in ZnO(P)/MgZnO/ZnO/MgZnO/ZnO(Ga) structures grown by pulsed laser deposition on sapphire were studied before and after annealing in oxygen atmosphere at high temperatures of 850°C to 950°C. In both as-grown and annealed structures, microcathodoluminescence spectra in the near-bandgap region demonstrate a blue-shift by 0.13 eV compared with bulk ZnO films, indicating carrier confinement in the MgZnO/ZnO/MgZnO quantum well (QW). Annealing strongly decreases the concentration of shallow … Show more

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Cited by 6 publications
(2 citation statements)
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“…The trap sites created by the defects significantly influence the electrical and optical properties of a semiconductor device [46]. From the scientific literature, we commonly found an electron trap with ∼0.10 eV corresponding to the ZnO crystals [41,[47][48][49]. However, this defect level is still not fully accepted as the signature defect in ZnO.…”
Section: Dlts Analysismentioning
confidence: 99%
“…The trap sites created by the defects significantly influence the electrical and optical properties of a semiconductor device [46]. From the scientific literature, we commonly found an electron trap with ∼0.10 eV corresponding to the ZnO crystals [41,[47][48][49]. However, this defect level is still not fully accepted as the signature defect in ZnO.…”
Section: Dlts Analysismentioning
confidence: 99%
“…Thus, the development of reliable techniques toward synthesizing aligned ZnO nanowires, and appreciably incorporating Mg during synthesis is of great significance. Prior work investigating ZnMgO nanostructures have been reported based on deposition methods, which have ranged from: molecular beam epitaxy, metal–organic chemical vapor deposition, , pulsed-laser deposition, hydrothermal techniques, , radio frequency magnetron cosputtering, and vapor-phase transport. ,, The vapor-phase transport technique yields highly crystalline nanostructures and is a relatively straightforward synthesis route, able to encompass equilibrium formation in one step, rather than necessitating ex situ incorporation. Additionally, understanding the changes in optical and physical properties due to postgrowth thermal treatment of ZnMgO nanowires is of importance toward tuning the cutoff wavelength for solar-blind photodetectors.…”
Section: Introductionmentioning
confidence: 99%