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Design strategy for p-type transparent conducting oxides

Ling Hu, Renhuai Wei, Xianwu Tang, W. J. Lu, Xuebin Zhu, Yuping Sun

2020Journal of Applied Physics68 citationsDOIOpen Access PDF

Abstract

Transparent conducting oxides (TCOs), combining the mutually exclusive functionalities of high electrical conductivity and high optical transparency, lie at the center of a wide range of technological applications. The current design strategy for n-type TCOs, making wide bandgap oxides conducting through degenerately doping, obtains successful achievements. However, the performances of p-type TCOs lag far behind the n-type counterparts, primarily owing to the localized nature of the O 2p-derived valence band (VB). Modulation of the VB to reduce the localization is a key issue to explore p-type TCOs. This Perspective provides a brief overview of recent progress in the field of design strategy for p-type TCOs. First, the introduction to principle physics of TCOs is presented. Second, the design strategy for n-type TCOs is introduced. Then, the design strategy based on the concept of chemical modulation of the valence band for p-type TCOs is described. Finally, through the introduction of electron correlation in strongly correlated oxides for exploring p-type TCOs, the performance of p-type TCOs can be remarkably improved. The design strategy of electron correlation for p-type TCOs could be regarded as a promising material design approach toward the comparable performance of n-type TCOs.

Topics & Concepts

DopingNanotechnologyValence (chemistry)Materials scienceValence bandOptoelectronicsComputer scienceBand gapChemistryOrganic chemistryZnO doping and propertiesCopper-based nanomaterials and applicationsElectronic and Structural Properties of Oxides
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