Materials (May 2022)

Atomic Structure Evaluation of Solution-Processed <i>a</i>-IZO Films and Electrical Behavior of <i>a</i>-IZO TFTs

  • Dongwook Kim,
  • Hyeonju Lee,
  • Bokyung Kim,
  • Xue Zhang,
  • Jin-Hyuk Bae,
  • Jong-Sun Choi,
  • Sungkeun Baang

DOI
https://doi.org/10.3390/ma15103416
Journal volume & issue
Vol. 15, no. 10
p. 3416

Abstract

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Understanding the chemical reaction pathway of the metal–salt precursor is essential for modifying the properties of solution-processed metal-oxide thin films and further improving their electrical performance. In this study, we focused on the structural growth of solution-processed amorphous indium-zinc-oxide (a-IZO) films and the electrical behavior of a-IZO thin-film transistors (TFT). To this end, solution-processed a-IZO films were prepared with respect to the Zn molar ratio, and their structural characteristics were analyzed. For the structural characteristic analysis of the a-IZO film, the cross-section, morphology, crystallinity, and atomic composition characteristics were used as the measurement results. Furthermore, the chemical reaction pathway of the nitrate precursor-based IZO solution was evaluated for the growth process of the a-IZO film structure. These interpretations of the growth process and chemical reaction pathway of the a-IZO film were assumed to be due to the thermal decomposition of the IZO solution and the structural rearrangement after annealing. Finally, based on the structural/chemical results, the electrical performance of the fabricated a-IZO TFT depending on the Zn concentration was evaluated, and the electrical behavior was discussed in relation to the structural characteristics.

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