Title :
Carrier injection mechanism in an a-SiC p-i-n junction thin-film LED
Author :
Kruangam, Dusit ; Deguchi, Masahiro ; Toyama, Toshihiko ; Okamoto, Hiroaki ; Hamakawa, Yoshihiro
Author_Institution :
Osaka Univ., Toyonaka, Japan
fDate :
7/1/1988 12:00:00 AM
Abstract :
A systematic study has been done on the carrier injection mechanism and electroluminescent properties of an amorphous silicon-carbide p-i-n junction thin-film light-emitting diode (a-SiC TFLED). The analysis of the junction characteristics reveals that the main contribution to the junction current comes from electrons injected by tunneling from the n-layer through the i-n interface notch barrier, while the electroluminescent property of the TFLED is determined by the injection process of holes. This process also takes place by tunneling, in this case from the p-layer through the p-i interface notch barrier. On the basis of the results of the analysis, a method to improve the LED performance using a hot-carrier-tunneling injector structure is proposed. With this structure, the brightness of the TFLED is increased by more than one order of magnitude to about 20 cd/m2, with an injection current density of 600 mA/cm2
Keywords :
amorphous semiconductors; light emitting diodes; semiconductor materials; silicon compounds; thin film devices; LED performance; amorphous SiC; brightness; carrier injection mechanism; electroluminescent properties; electrons injected by tunneling; hot-carrier-tunneling injector structure; injection current density; injection of holes; interface notch barrier; light-emitting diode; p-i-n junction thin-film LED; systematic study; Amorphous materials; Charge carrier processes; Electroluminescence; Electroluminescent devices; Light emitting diodes; Mechanical factors; PIN photodiodes; Semiconductor thin films; Transistors; Tunneling;
Journal_Title :
Electron Devices, IEEE Transactions on
