Title :
Applying a novel multilayered nano-crystalline silicon structure in fabrication of silicon-based light emitting diodes
Author :
Darbari, S. ; Shahmohammadi, M. ; Mohajerzadeh, S.
Author_Institution :
Thin Film & Nano-Electron. Lab., Univ. of Tehran, Tehran, Iran
Abstract :
A low-temperature hydrogenation-assisted sequential deposition and crystallization technique is reported for the preparation of nano-scale silicon quantum dots suitable for light-emitting applications. The preparation of layers of quantum dots was by RF plasma-enhanced deposition and in-situ treatment of an amorphous silicon film followed by reactive-ion etching to create the nanoscale features. The physical characteristics of the films prepared at different plasma conditions were investigated by scanning electron microscopy, transmission electron microscopy, atomic force microscopy and photoluminescence analysis. The formation of multilayered structures improved the photon-emission properties as observed by photoluminescence while a thin layer of silicon-oxy-nitride was used for electrical isolation between adjacent silicon layers. The preparation of light-emitting diodes directly on glass substrates has been also demonstrated.
Keywords :
elemental semiconductors; light emitting diodes; photoluminescence; plasma CVD coatings; semiconductor quantum dots; silicon; sputter etching; RF plasma enhanced deposition; Si; amorphous silicon film; atomic force microscopy; crystallization technique; electrical isolation; glass substrates; in-situ treatment; light emitting application; light emitting diodes; low temperature hydrogenation; multilayered nanocrystalline silicon structure; nanoscale feature; nanoscale silicon quantum dot; photoluminescence analysis; photonemission property; reactive ion etching; scanning electron microscopy; sequential deposition; transmission electron microscopy; Etching; Fabrication; Glass; Photoluminescence; Plasmas; Silicon; Substrates; Light-emitting diode; luminescence; multilayer structure; nano-crystalline silicon;
Conference_Titel :
Electrical Engineering (ICEE), 2011 19th Iranian Conference on
Conference_Location :
Tehran
Print_ISBN :
978-1-4577-0730-8
Electronic_ISBN :
978-964-463-428-4
