Rui Wang | Jilin University (original) (raw)
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CSIC (Consejo Superior de Investigaciones CientÃficas-Spanish National Research Council)
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In2O3 doped with rare-earth element yttrium shows improved optoelectronic efficiency. Here the st... more In2O3 doped with rare-earth element yttrium shows improved optoelectronic efficiency. Here the structural properties and electronic structures of Y-doped In2O3 are investigated by using a first-principles approximation. For In1.9375Y0.0625O3, the site is the more stable site. The Y 3+ i interstitial has a low formation energy and is a possible interstitial defect, which would lead to shallow and abundant donors without sacrificing optical transparency. Since defects are universally distributed in In2O3 or doped In2O3, complex defect configurations are also calculated.
In2O3 doped with rare-earth element yttrium shows improved optoelectronic efficiency. Here the st... more In2O3 doped with rare-earth element yttrium shows improved optoelectronic efficiency. Here the structural properties and electronic structures of Y-doped In2O3 are investigated by using a first-principles approximation. For In1.9375Y0.0625O3, the site is the more stable site. The Y 3+ i interstitial has a low formation energy and is a possible interstitial defect, which would lead to shallow and abundant donors without sacrificing optical transparency. Since defects are universally distributed in In2O3 or doped In2O3, complex defect configurations are also calculated.