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Wafer-scale design of lightweight and transparent electronics that wraps around hairs

Author

Listed:
  • Giovanni A. Salvatore

    (Electronics Laboratory, Swiss Federal Institute of Technology)

  • Niko Münzenrieder

    (Electronics Laboratory, Swiss Federal Institute of Technology)

  • Thomas Kinkeldei

    (Electronics Laboratory, Swiss Federal Institute of Technology)

  • Luisa Petti

    (Electronics Laboratory, Swiss Federal Institute of Technology)

  • Christoph Zysset

    (Electronics Laboratory, Swiss Federal Institute of Technology)

  • Ivo Strebel

    (Electronics Laboratory, Swiss Federal Institute of Technology)

  • Lars Büthe

    (Electronics Laboratory, Swiss Federal Institute of Technology)

  • Gerhard Tröster

    (Electronics Laboratory, Swiss Federal Institute of Technology)

Abstract

Electronics on very thin substrates have shown remarkable bendability, conformability and lightness, which are important attributes for biological tissues sensing, wearable or implantable devices. Here we propose a wafer-scale process scheme to realize ultra flexible, lightweight and transparent electronics on top of a 1-μm thick parylene film that is released from the carrier substrate after the dissolution in water of a polyvinyl– alcohol layer. The thin substrate ensures extreme flexibility, which is demonstrated by transistors that continue to work when wrapped around human hairs. In parallel, the use of amorphous oxide semiconductor and high-K dielectric enables the realization of analogue amplifiers operating at 12 V and above 1 MHz. Electronics can be transferred on any object, surface and on biological tissues like human skin and plant leaves. We foresee a potential application as smart contact lenses, covered with light, transparent and flexible devices, which could serve to monitor intraocular pressure for glaucoma disease.

Suggested Citation

  • Giovanni A. Salvatore & Niko Münzenrieder & Thomas Kinkeldei & Luisa Petti & Christoph Zysset & Ivo Strebel & Lars Büthe & Gerhard Tröster, 2014. "Wafer-scale design of lightweight and transparent electronics that wraps around hairs," Nature Communications, Nature, vol. 5(1), pages 1-8, May.
    • Handle: RePEc:nat:natcom:v:5:y:2014:i:1:d:10.1038_ncomms3982
    DOI: 10.1038/ncomms3982
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    Cited by:

    1. Guanhua Long & Wanlin Jin & Fan Xia & Yuru Wang & Tianshun Bai & Xingxing Chen & Xuelei Liang & Lian-Mao Peng & Youfan Hu, 2022. "Carbon nanotube-based flexible high-speed circuits with sub-nanosecond stage delays," Nature Communications, Nature, vol. 13(1), pages 1-8, December.

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