Strong improvement of the electroluminescence stability of SiO2:Gd layers by potassium co-implantation.


Strong improvement of the electroluminescence stability of SiO2:Gd layers by potassium co-implantation.

Prucnal, S.; Sun, J. M.; Reuther, H.; Skorupa, W.; Buchal, C.

Metal-Oxide-Silicon-Based light emitting diodes with Gd implanted SiO2 layers exhibit strong ultraviolet electroluminescence at 316 nm coming from Gd3+ ions. Co-implantation of potassium ions into the SiO2:Gd layer leads to elimination of the luminescent peak from point defects in SiO2 layers. The electropositive potassium ions compensate the negative charge trapping in the gate oxide and thus improve the electrical stability of the ultraviolet emission from Gd3+ ions. The operating time of the devices was increased more than 30 times by using potassium co-implantation and millisecond flash lamp annealing.

Keywords: ion implantation; MOSLEDs; electroluminescence; silicon dioxide

  • Electrochemical and Solid State Letters 10(2007), 330

Permalink: https://www.hzdr.de/publications/Publ-8624
Publ.-Id: 8624