Nature Communications (Apr 2024)

Autonomous self-healing supramolecular polymer transistors for skin electronics

  • Ngoc Thanh Phuong Vo,
  • Tae Uk Nam,
  • Min Woo Jeong,
  • Jun Su Kim,
  • Kyu Ho Jung,
  • Yeongjun Lee,
  • Guorong Ma,
  • Xiaodan Gu,
  • Jeffrey B.-H. Tok,
  • Tae Il Lee,
  • Zhenan Bao,
  • Jin Young Oh

DOI
https://doi.org/10.1038/s41467-024-47718-2
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 10

Abstract

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Abstract Skin-like field-effect transistors are key elements of bio-integrated devices for future user-interactive electronic-skin applications. Despite recent rapid developments in skin-like stretchable transistors, imparting self-healing ability while maintaining necessary electrical performance to these transistors remains a challenge. Herein, we describe a stretchable polymer transistor capable of autonomous self-healing. The active material consists of a blend of an electrically insulating supramolecular polymer with either semiconducting polymers or vapor-deposited metal nanoclusters. A key feature is to employ the same supramolecular self-healing polymer matrix for all active layers, i.e., conductor/semiconductor/dielectric layers, in the skin-like transistor. This provides adhesion and intimate contact between layers, which facilitates effective charge injection and transport under strain after self-healing. Finally, we fabricate skin-like self-healing circuits, including NAND and NOR gates and inverters, both of which are critical components of arithmetic logic units. This work greatly advances practical self-healing skin electronics.