Journal ArticleDOI
Bipolar doping and band-gap anomalies in delafossite transparent conductive oxides.
TLDR
It is shown that both properties are results of a large disparity between the fundamental gap and the apparent optical gap, a finding that could lead to a breakthrough in the study of bipolarly dopable wide-gap semiconductor oxides.Abstract:
Doping wide-gap materials p type is highly desirable but often difficult. This makes the recent discovery of p-type delafossite oxides, CuM(III)O2, very attractive. The CuM(III)O2 also show unique and unexplained physical properties: Increasing band gap from M(III) = Al,Ga, to In, not seen in conventional semiconductors. The largest gap CuInO2 can be mysteriously doped both n and p type but not the smaller gaps CuAlO2 and CuGaO2. Here, we show that both properties are results of a large disparity between the fundamental gap and the apparent optical gap, a finding that could lead to a breakthrough in the study of bipolarly dopable wide-gap semiconductor oxides.read more
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Journal ArticleDOI
Band offsets, Schottky barrier heights, and their effects on electronic devices
TL;DR: In this paper, the authors review the band line-ups and band offsets between semiconductors, dielectrics, and metals, including the theory, experimental data, and the chemical trends.
Journal ArticleDOI
p‐type transparent conducting oxides
TL;DR: The recent advance of p-type transparent conductive oxide thin films is reviewed in this article, where p-SCO/n-ZnO p-n junctions have been used for all-oxide transparent electronics.
Journal ArticleDOI
CuBO2: A p-type transparent oxide
Michael Snure,Ashutosh Tiwari +1 more
TL;DR: In this paper, a p-type transparent oxide belonging to the Cu-delafossite family was synthesized using pulsed laser deposition technique and detailed structural, optical, and electrical characterizations on these films were performed.
Journal ArticleDOI
On the possibility of p-type SnO2
TL;DR: In this paper, the authors used hybrid density functional theory to investigate the nature of intrinsic and extrinsic p-type defects in SnO2, and showed that all the defects considered in this paper produce localized hole polarons centered on anion sites.