Title :
Room-Temperature Visible Electroluminescence From Aluminum Nitride Thin Film Embedded With Aluminum Nanocrystals
Author :
Yang, Ming ; Chen, T.P. ; Liu, Yang ; Ding, Liang ; Wong, Jen It ; Liu, Zhen ; Zhang, Sam ; Zhang, Wali ; Zhu, Furong
Author_Institution :
Nanyang Technol. Univ., Singapore
Abstract :
In this brief, room-temperature visible electroluminescence (EL) from aluminum nitride (AlN) thin films containing aluminum nanocrystals (nc-Al) prepared by a radio-frequency magnetron sputtering technique is reported. The EL shows a broad spectrum peaked at 565 nm (2.19 eV) when a negative gate voltage is applied. A linear relationship between the EL and the current transport in the nc-Al/AlN thin film system is observed, and both the current transport and the EL intensity exhibit a power-law dependence on the gate voltage. These results are explained in terms of the formation of percolation networks of tunneling paths by the nc-Al arrays and the radiative recombination of the injected electrons and holes via the deep-level defects at the locations of nc-Al along the tunneling paths.
Keywords :
aluminium compounds; electroluminescence; sputtering; thin films; AlN; EL intensity; aluminum nanocrystals; aluminum nitride thin films; current transport; gate voltage; percolation networks; power-law dependence; radio-frequency magnetron sputtering; room-temperature visible electroluminescence; thin film system; Aluminum nitride; Charge carrier processes; Electroluminescent devices; Nanocrystals; Radiative recombination; Radio frequency; Sputtering; Transistors; Tunneling; Voltage; Aluminum nanocrystal; aluminum nitride; electroluminescence; light emitting device;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2008.2006531
