Micro LEDs | Buch | 978-0-12-823041-1 | sack.de

Buch, Englisch, 410 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 820 g

Micro LEDs


Erscheinungsjahr 2021
ISBN: 978-0-12-823041-1
Verlag: William Andrew Publishing

Buch, Englisch, 410 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 820 g

ISBN: 978-0-12-823041-1
Verlag: William Andrew Publishing

MicroLEDs', Volume 106 is currently recognized as the ultimate display technology and one of the fastest-growing technologies in the world as technology giants utilize it on a wide-ranging set of products. This volume combines contributions from MicroLED pioneers and world's leading experts in the field who focus on the MicroLED development, current cutting-edge technologies of pursuing for realizing MicroLED large flat panel displays and televisions, virtual reality and 3D displays, light source for LI-FI data communications, neural interface and optogenetics, and future MicroLED technology trends.
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Zielgruppe

<ul> <ul> <li>Display industries, entertainment sector, University researchers, lighting and semiconductor industries</li></ul></ul>

Autoren/Hrsg.

Fachgebiete

Weitere Infos & Material

1. Development of nitride microLEDs and displays Hongxing Jiang and Jingyu Lin 2. Micro-LEDs for biomedical applications Jonathan McKendry, Erdan Gu, Niall McAlinden, Nicolas Laurand, Keith Mathieson and Martin D. Dawson 3. High external quantum efficiency III-nitride micro-light-emitting diodes Matthew S. Wong, Shuji Nakamura and Steven P. DenBaars 4. GaN-on-silicon microleds for neural interfaces Kanghwan Kim, Fan Wu, Kensall D. Wise and Euisik Yoon 5. Quantum-dot-based full-color micro-LED displays Tingzhu Wu, Yu-Ming Huang, Konthoujam James Singh, Zhong Chen and Hao-Chung Kuo 6. Damage-free neutral beam etching for GaN micro-LEDs processing Xuelun Wang and Seiji Samukawa 7. From nanoLEDs to the realization of RGB-emitting microLEDs Zhaoxia Bi, Zhen Chen, Fariba Danesh and Lars Samuelson 8. Mass transfer for Micro-LED display: Transfer printing techniques Changhong Linghu, Shun Zhang, Chengjun Wang, Hongyu Luo and Jizhou Song 9. Micro-LED based optical wireless communications systems P. Tian, J.J.D. McKendry, J. Herrnsdorf, S. Zhu, E. Gu, N. Laurand and M.D. Dawson 10. Angular color shift and power consumption of RGB micro-LED displays Fangwang Gou, En-Lin Hsiang and Shin-Tson Wu 11. Monolithic integration of AlGaInP red and InGaN blue/green LEDs Dong-Seon Lee and Sang Hyeon Kim

Jiang, Hongxing
Dr. Hongxing Jiang received his BS in Physics in 1981 from Fudan University, China. He came to US through the prestigious CUSPEA program created by Nobel laureate, Prof. Tsung-Dao Lee. He obtained PhD in Physics in 1986 from Syracuse University under the guidance of the late Prof. Arnold Honig, an academic descendant of the late Nobel laureate Prof. Charles Townes. He has been working on III-nitride semiconductors since 1995. His team has invented micro-LED technology in 2000, leading to the realization of self-emissive microdisplays and microLED large panel displays. Presently, microLED is recognized as the ultimate display technology and is championed by technology giants to take on large flat panel displays and VR/3D displays. Currently, he directs the Nanophotonics Center and is the inaugural Edward E. Whitacre Jr. endowed chair and Horn Distinguished Professor of Electrical & Computer Engineering at Texas Tech University (TTU). He relocated his group to TTU in 2008 from Kansas State University where he was a University Distinguished Professor of Physics. He is the founder of 2 companies, III-N Technology, Inc. and AC-LED Lighting, LLC. His companies invented single-chip high voltage AC/DC-LEDs in 2002 and were also the first to realize video-capable self-emissive microLED microdisplay in VGA format via integration of MicroLEDs with CMOS IC in 2011, which transitioned MicroLED from prototype concept to reality and thereby stimulated worldwide efforts in MicroLED technology. High voltage DC/AC-LEDs have been commercialized worldwide, as AC-LEDs are capable to be plugged directly into standard power outlets or lamp sockets without power conversion, whereas the high voltage DC-LEDs have been widely used in automobile headlights by providing enhanced durability while reducing costs. He has been issued 19 patents. His group has recently realized boron nitride (BN) neutron detectors with a record high efficiency among solid-state detectors with the potential to displace the archaic He-3 gas detector technology. Prof. Jiang is an elected Fellow of the American Association for the Advancement of Science (AAAS), the American Physical Society (APS), the Optical Society of America (OSA), the SPIE - the international society for optics and photonics, and the National Academy of Inventors (NAI).

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