Advanced Science (Nov 2022)

Pressure Engineering Promising Transparent Oxides with Large Conductivity Enhancement and Strong Thermal Stability

  • Xuqiang Liu,
  • Mingtao Li,
  • Qian Zhang,
  • Yiming Wang,
  • Nana Li,
  • Shang Peng,
  • Tao Yin,
  • Songhao Guo,
  • Ye Liu,
  • Limin Yan,
  • Dongzhou Zhang,
  • Jaeyong Kim,
  • Gang Liu,
  • Yandong Wang,
  • Wenge Yang

DOI
https://doi.org/10.1002/advs.202202973
Journal volume & issue
Vol. 9, no. 31
pp. n/a – n/a

Abstract

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Abstract Transparent conducting oxides (TCO) with high electrical conductivity and high visible light transparency are desired for a wide range of high‐impact engineering. Yet, usually, a compromise must be made between conductivity and transparency, limiting the practical application of a TCO to the next level. Furthermore, TCO performance is highly sensitive to composition, so conventional synthesis methods, such as chemical doping, cannot unravel the mysteries of the quantitative structure–performance relationship. Thus, improving the fundamental understanding or creating materials‐by‐design has limited success. Here, a strategy is proposed to modulate the lattice and electronic and optical properties precisely by applying pressure on a TCO. Strikingly, after compression–decompression treatment on the indium titanium oxides (ITiO), a highly transparent and metastable phase with two orders of magnitude enhancement in conductivity is synthesized from an irreversible phase transition. Moreover, this phase possesses previously unattainable filter efficiency on hazardous blue light up to 600 °C, providing potential for healthcare‐related applications with strong thermal stability up to 200 °C. These results demonstrate that pressure engineering is a clean and effective tool for tailoring functional materials that are not achievable by other means, providing an exciting alternative property‐tuning dimension in materials science.

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