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MBE-grown Zincblende MnSe 1−x Te x Thin Films on ZnTe Journal article
Journal of Crystal Growth, 2019,Volume: 511,Page: 19-24
Authors:  Cheng M.K.;  Liang J.;  Xu J.;  Lai Y.H.;  Ho S.K.;  Tam K.W.;  Sou I.K.
Favorite  |  View/Download:4/0  |  Submit date:2019/03/01
A1. High resolution X-ray diffraction  A3. Molecular beam epitaxy  B1. Alloys  B1. Tellurites  
MBE-grown Zincblende MnSe1−xTex Thin Films on ZnTe Journal article
Journal of Crystal Growth, 2019,Volume: 511,Page: 19-24
Authors:  Cheng M.K.;  Liang J.;  Xu J.;  Lai Y.H.;  Ho S.K.;  Tam K.W.;  Sou I.K.
Favorite  |  View/Download:11/0  |  Submit date:2019/02/13
A1. High resolution X-ray diffraction  A3. Molecular beam epitaxy  B1. Alloys  B1. Tellurites  
Defect reduction in epitaxial InP on nanostructured Si (001) substrates with position-controlled seed arrays Journal article
Journal of Crystal Growth, 2014,Volume: 405,Page: 81-86
Authors:  Li Q.;  Ng K.W.;  Tang C.W.;  Lau K.M.;  Hill R.;  Vert A.
Favorite  |  View/Download:3/0  |  Submit date:2019/04/08
A1. Defects  A3. Metal-organic chemical vapor deposition  B1. Nanomaterials  B2. Semiconducting III-V materials  B2. Semiconducting indium phosphide  
Degenerated MgZnO films obtained by excessive zinc Journal article
Journal of Crystal Growth, 2012,Volume: 347,Issue: 1,Page: 95-98
Authors:  Liu J.S.;  Shan C.X.;  Wang S.P.;  Li B.H.;  Zhang Z.Z.;  Shen D.Z.
Favorite  |  View/Download:1/0  |  Submit date:2019/04/08
A1. Characterization  A3. Molecular beam epitaxy  B2. Semiconducting II-VI materials  
A route to single-crystalline ZnO films with low residual electron concentration Journal article
Journal of Crystal Growth, 2010,Volume: 312,Issue: 20,Page: 2861-2864
Authors:  Liu J.S.;  Shan C.X.;  Wang S.P.;  Sun F.;  Yao B.;  Shen D.Z.
Favorite  |  View/Download:1/0  |  Submit date:2019/04/08
A1. X-ray diffraction  A3. Molecular beam epitaxy  B1. Zinc compounds  B2. Semiconducting II-VI materials  
A facile route to arsenic-doped p-type ZnO films Journal article
Journal of Crystal Growth, 2009,Volume: 311,Issue: 14,Page: 3577-3580
Authors:  Wang S.P.;  Shan C.X.;  Li B.H.;  Zhang J.Y.;  Yao B.;  Shen D.Z.;  Fan X.W.
Favorite  |  View/Download:3/0  |  Submit date:2019/04/08
A1. Diffusion  A1. Doping  A3. Molecular beam epitaxy  B2. Semiconducting II-VI materials  
Effects of low-temperature-grown ZnO buffer layer and Zn/O ratio on the properties of high-temperature-overgrown ZnO main layer on Si substrate by MBE Journal article
Journal of Crystal Growth, 2007,Volume: 301-302,Issue: SPEC. ISS.,Page: 373-377
Authors:  Lu Y.M.;  Wang X.;  Zhang Z.Z.;  Shen D.Z.;  Su S.C.;  Yao B.;  Li B.H.;  Zhang J.Y.;  Zhao D.X.;  Fan X.W.;  Tang Z.K.
Favorite  |  View/Download:1/0  |  Submit date:2019/04/08
A1. Atomic force microscopy  A1. Photoluminescence  A1. X-ray diffraction  A3. Molecular beam epitaxy  B1. Zinc oxide  
p-Type ZnO on sapphire by using O2-N2 co-activating and fabrication of ZnO LED Journal article
Journal of Crystal Growth, 2007,Volume: 301-302,Issue: SPEC. ISS.,Page: 362-365
Authors:  Zhang Z.Z.;  Wei Z.P.;  Lu Y.M.;  Shen D.Z.;  Yao B.;  Li B.H.;  Zhao D.X.;  Zhang J.Y.;  Fan X.W.;  Tang Z.K.
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A3. Molecular beam epitaxy  B2. Semiconducting II-VI materials  B3. Light-emitting diodes  
Self-assembled ZnO nano-crystals and exciton lasing at room temperature Journal article
Journal of Crystal Growth, 2006,Volume: 287,Issue: 1,Page: 169-179
Authors:  Tang Z.K.;  Kawasaki M.;  Ohtomo A.;  Koinuma H.;  Segawa Y.
Favorite  |  View/Download:3/0  |  Submit date:2019/04/08
A1. Nanostructures  A1. Quantum size effect  B1. Free excitons  B1. Zinc oxide  B3. Ultraviolet lasing  
Optical gain in self-assembled ZnO microcrysallite thin films Journal article
Journal of Crystal Growth, 2003,Volume: 259,Issue: 3,Page: 286-290
Authors:  Zhang X.Q.;  Tang Z.K.;  Kawasaki M.;  Ohtomo A.;  Koinuma H.
Favorite  |  View/Download:2/0  |  Submit date:2019/04/08
A1. Optical gain  A1. Optical loss  A1. Stimulated emission  B1. ZnO