標題: | Highly Efficient InGaN-Based Light Emitting Devices grown on Nanoscale Patterned Substrates by MOCVD |
作者: | Lin, Chien-Chung Chiu, Ching-Hsueh Huang, H. W. Chang, Shih-Pang Kuo, Hao-Chung Chang, Chun-Yen 光電系統研究所 電子工程學系及電子研究所 光電工程學系 Institute of Photonic System Department of Electronics Engineering and Institute of Electronics Department of Photonics |
關鍵字: | light emitting devises (LEDs);light extraction efficiency (LEE);selective area epitaxy (SAE);quantum confine stark effect (QCSE) |
公開日期: | 2012 |
摘要: | Highly efficient InGaN-base light emitting diodes are crucial for next generation solid state lighting. However, drawbacks in substrate materials such as lattice and thermal expansion coefficient mismatches hold back the lamination efficiency improvement. In the past, patterned sapphire sustrate (PSS) has been proven to be effect to enhance the LED\'s performance. In this work, we reviewed several promising nano-scale technologies which successfully increase the output of LED through better material quality and light extraction. First, we presented a study of high-performance blue emission GaN LEDs using GaN nanopillars (NPs). It exhibits smaller blue shift in electroluminescent peak wavelength and great enhancement of the light output (70% at 20 mA) compared with the conventional LEDs. Secondly, GaN based LEDs with nano-hole patterned sapphire (NHPSS) by nano-imprint lithography are fabricated structure grown on sapphire substrate. At an injection current of 20mA, the LED with NHPSS increased the light output power of LEDs by 1.33 times, and the wall-plug efficiency is 30% higher at 20mA indicating that it had larger light extraction efficiency (LEE). Finally, we fabricated the high performance electrical pumping GaN-based semipolar {10-11} nano-pyramid LEDs on c-plane sapphire substrate by selective area epitaxy (SAE). The emission wavelength only blue-shifted about Snm as we increased the forward current from 40 to 200mA, and the quantum confine stark effect (QCSE) had been remarkably suppressed on semipolar surface at long emission wavelength region. These results manifest the promising role of novel nanotechnology in the future III-nitride light emitters. |
URI: | http://dx.doi.org/10.1117/12.915513 http://hdl.handle.net/11536/134762 |
ISBN: | 978-0-8194-8961-6 |
ISSN: | 2162-108X |
DOI: | 10.1117/12.915513 |
期刊: | 2011 ASIA COMMUNICATIONS AND PHOTONICS CONFERENCE AND EXHIBITION (ACP) |
Appears in Collections: | Conferences Paper |