Title :
Electroluminescence Devices Based on Si Quantum Dots/SiC Multilayers Embedded in PN Junction
Author :
Xu, Xin ; Cao, Y.Q. ; Lu, Pingping ; Xu, Jie ; Li, Wenyuan ; Chen, Kevin J.
Author_Institution :
Nat. Lab. of Solid State Microstructures, Nanjing Univ., Nanjing, China
Abstract :
We deposited a p-i-n structure device with alternative amorphous Si (a-Si) and amorphous SiC (a-SiC) multilayers as an intrinsic layer in a plasma-enhanced chemical vapor deposition (PECVD) system. A KrF pulsed excimer laser-induced crystallization of a-Si/a-SiC stacked structures was used to prepare Si quantum dots (Si QDs)/SiC multilayers. The formation of Si QDs with an average size of 4 nm was confirmed by Raman spectra, whereas the layered structures were revealed by cross-sectional transmission electron microscopy. Electroluminescence (EL) devices containing Si QDs/SiC multilayers embedded in a p-n junction were fabricated, and the device performance was studied and compared with the reference device without the p-i-n structure. It was found that the turn-on voltage was reduced and that luminescence efficiency was significantly enhanced by using the p-i-n device structure. The recombination mechanism of carriers in a Si-QD-based EL device was also discussed, and the improved device performance can be attributed to the enhanced radiative recombination probability in a p-i-n EL device.
Keywords :
Raman spectra; amorphous semiconductors; crystallisation; electroluminescence; electroluminescent devices; electron-hole recombination; elemental semiconductors; laser materials processing; multilayers; p-n junctions; plasma CVD; semiconductor quantum dots; silicon; silicon compounds; wide band gap semiconductors; PECVD; PN junction; Raman spectra; Si-SiC; alternative amorphous multilayers; carrier recombination; electroluminescence devices; enhanced radiative recombination probability; multilayers; p-i-n structure device; plasma-enhanced chemical vapor deposition; pulsed excimer laser-induced crystallization; quantum dots; sectional transmission electron microscopy; turn-on voltage; Delays; Integrated circuit modeling; Logic gates; Noise; Power supplies; SPICE; Switches; Light-emitting diodes; silicon nanophotonics; synthesis and fabrication methods;
Journal_Title :
Photonics Journal, IEEE
DOI :
10.1109/JPHOT.2013.2295467
