What question did this study set out to answer?

The aim is to explore how native point defects affect conduction in indium tin oxide thin films, particularly those related to oxygen.

May 8, 2026

Detection, identification, and impact of native point defects on conduction in ITO thin films

Key Points

The aim is to explore how native point defects affect conduction in indium tin oxide thin films, particularly those related to oxygen.
Utilized depth-resolved cathodoluminescence spectroscopy for near-nanometer depth resolution.
Conducted van-der-Pauw-Hall measurements to assess Hall effect mobility and conductivity.
Investigated the effects of growth and processing conditions on native defects in ITO.
Identified spectral changes associated with the presence of oxygen-related defects in the indium tin oxide bandgap.
Demonstrated that reducing the density of specific point defects increases free carrier concentration.
Established a correlation between processing techniques and improvements in electrical conductivity.

Abstract

We used depth-resolved cathodoluminescence spectroscopy and van-der-Pauw-Hall measurements to determine the effects of molecular beam epitaxy growth and processing conditions on native point defects in indium tin oxide (ITO). The near-nanometer depth resolution of this optical technique enabled us to identify spectral changes associated with removing or creating these defects, leading to the identification of oxygen-related defects in the indium tin oxide bandgap. The combined near-surface detection and processing of ITO together with their correlation with Hall effect mobility indicates an avenue for identifying the physical nature and reducing the density of specific native point defects to increase the free carrier concentration and conductivity of ultrathin ITO.

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Detection, identification, and impact of native point defects on conduction in ITO thin films

Key Points

Abstract

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