Advanced Electronic Materials (Apr 2023)

Molecularly Thin BaTiO3 Nanosheets with Stable Ferroelectric Response

  • Kazuki Hagiwara,
  • Ki Nam Byun,
  • Shu Morita,
  • Eisuke Yamamoto,
  • Makoto Kobayashi,
  • Xiaoyan Liu,
  • Minoru Osada

DOI
https://doi.org/10.1002/aelm.202201239
Journal volume & issue
Vol. 9, no. 4
pp. n/a – n/a

Abstract

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Abstract 2D ferroelectrics provide great promise for future electronics owing to their unique properties at 2D limit. Although simple perovskite oxides (such as BaTiO3 and PbTiO3) are an important target for 2D ferroelectrics, controlled synthesis of 2D nanosheets still remains a challenge. Here, this issue is addressed by using a new chemical protocol; unilamellar Ti0.87O2 nanosheets can serve as templates, guiding the solvothermal synthesis of 2D BaTiO3 nanosheets with a molecularly thin thickness (< 3 nm). Raman spectroscopy, second‐harmonic generation, and transmission electron microscopy characterizations suggest the formation of tetragonal ferroelectric BaTiO3 nanosheets. Based on piezoresponse force microscopy, BaTiO3 nanosheets exhibit a clear ferroelectric response with a high Curie temperature (≈100 °C) even down to 1.8 nm thickness. This study provides new opportunities to investigate perovskite ferroelectrics with the critical thickness.

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