Design and fabrication of ultraviolet metal-oxide light-emitting devices
Zinc Oxide (ZnO) has a wide bandgap energy (~3.37 eV) and high exciton binding enegy (~ 60 meV) which is more than two times larger than that of Gallium Nitride (GaN). Therefore, ZnO has been recognized as a promising candidate of ultraviolet (UV) optoelectronic devices operating at room temperature...
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sg-ntu-dr.10356-537562023-07-04T15:08:39Z Design and fabrication of ultraviolet metal-oxide light-emitting devices Liang, Houkun Chen Tupei Yu Siu Fung School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering Zinc Oxide (ZnO) has a wide bandgap energy (~3.37 eV) and high exciton binding enegy (~ 60 meV) which is more than two times larger than that of Gallium Nitride (GaN). Therefore, ZnO has been recognized as a promising candidate of ultraviolet (UV) optoelectronic devices operating at room temperature or even at high temperature. Especially, the high exciton binding energy favors the excitonic stimulated emission in the application of lasers. However, ZnO has a wurtzite crystal structure, and thus two sufficiently smooth mirror surfaces are hardly to be cleaved to form Fabry-Perot cavity. The discovery and development of ZnO random laser successfully avoid this difficulty by forming the lasing resonance via multi-scattering in a closed-loop feedback. DOCTOR OF PHILOSOPHY (EEE) 2013-06-07T03:53:30Z 2013-06-07T03:53:30Z 2011 2011 Thesis Liang, H. (2011). Design and fabrication of ultraviolet metal-oxide light-emitting devices. Doctoral thesis, Nanyang Technological University, Singapore. https://hdl.handle.net/10356/53756 10.32657/10356/53756 en 152 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering Liang, Houkun Design and fabrication of ultraviolet metal-oxide light-emitting devices |
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Zinc Oxide (ZnO) has a wide bandgap energy (~3.37 eV) and high exciton binding enegy (~ 60 meV) which is more than two times larger than that of Gallium Nitride (GaN). Therefore, ZnO has been recognized as a promising candidate of ultraviolet (UV) optoelectronic devices operating at room temperature or even at high temperature. Especially, the high exciton binding energy favors the excitonic stimulated emission in the application of lasers. However, ZnO has a wurtzite crystal structure, and thus two sufficiently smooth mirror surfaces are hardly to be cleaved to form Fabry-Perot cavity. The discovery and development of ZnO random laser successfully avoid this difficulty by forming the lasing resonance via multi-scattering in a closed-loop feedback. |
| author2 |
Chen Tupei |
| author_facet |
Chen Tupei Liang, Houkun |
| format |
Theses and Dissertations |
| author |
Liang, Houkun |
| author_sort |
Liang, Houkun |
| title |
Design and fabrication of ultraviolet metal-oxide light-emitting devices |
| title_short |
Design and fabrication of ultraviolet metal-oxide light-emitting devices |
| title_full |
Design and fabrication of ultraviolet metal-oxide light-emitting devices |
| title_fullStr |
Design and fabrication of ultraviolet metal-oxide light-emitting devices |
| title_full_unstemmed |
Design and fabrication of ultraviolet metal-oxide light-emitting devices |
| title_sort |
design and fabrication of ultraviolet metal-oxide light-emitting devices |
| publishDate |
2013 |
| url |
https://hdl.handle.net/10356/53756 |
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1772828501415559168 |