Impact of Aluminum Oxide Content on the Structural and Optical Properties of ZnO: AlO Thin Films

H. H. Abass, Bushra Hasan
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引用次数: 1

Abstract

AlO-doped ZnO nanocrystalline thin films from with nano crystallite size in the range (19-15 nm) were fabricated by pulsed laser deposition technique. The reduction of crystallite size by increasing of doping ratio shift the bandgap to IR region the optical band gap decreases in a consistent manner, from 3.21to 2.1 eV by increasing AlO doping ratio from 0 to 7wt% but then returns to grow up to 3.21 eV by a further increase the doping ratio. The bandgap increment obtained for 9% AlO dopant concentration can be clarified in terms of the Burstein–Moss effect whereas the aluminum donor atom increased the carrier's concentration which in turn shifts the Fermi level and widened the bandgap (blue-shift). The engineering of the bandgap by low concentration of AlO dopant makes ZnO: AlO thin films favorable for the fabrication of optoelectronic devices. The optical constants were calculated and was found to be greatly affected by the increasing the doping ratio.
氧化铝含量对ZnO: AlO薄膜结构和光学性能的影响
采用脉冲激光沉积技术制备了尺寸为19 ~ 15 nm的ZnO掺杂纳米晶薄膜。随着掺杂比的增加,晶体尺寸的减小使带隙向红外区移动,光学带隙以一致的方式减小,当AlO掺杂比从0增加到7wt%时,带隙从3.21 eV减小到2.1 eV,但当掺杂比进一步增加时,带隙又恢复到3.21 eV。当掺杂剂浓度为9%时,带隙增加可以用Burstein-Moss效应来解释,而铝给体原子增加了载流子的浓度,从而使费米能级发生位移,并使带隙变宽(蓝移)。低浓度的AlO掺杂剂对ZnO: AlO薄膜带隙的工程处理使得ZnO: AlO薄膜有利于光电器件的制造。计算了光学常数,发现掺杂比的增加对光学常数的影响很大。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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