270 nm Ultra-Thin Self-Adhesive Conformable and Long-Term Air-Stable Complimentary Organic Transistors and Amplifiers (original) (raw)

• Mohammad Javad Mirshojaeian Hosseini, Purdue University
• Yi Yang, Purdue University
• Walter Kruger, Purdue University
• Tomoyuki Yokota, The University of Tokyo
• Sunghoon Lee, The University of Tokyo
• Takao Someyra, The University of Tokyo
• Robert Nawrocki, Purdue UniversityFollow

Abstract

Lightweight, flexible, and conformal bioelectronics are essential for wearable technologies. This paper introduces 270 nm thin organic electronics amplifying circuits that are self-adhesive, skin conformal, and long-term air-stable. This report studies the effect of total device thickness, namely 3 μm and 270 nm devices, on the characterization of organic devices before and after buckling, the longevity of organic field-effect transistors (OFETs) over 5 years, and the lamination of OFETs on the human skin. A single-stage organic complementary inverter and a pseudo-complementary amplifier are fabricated to compare their electrical characteristics, with amplification gains of 10 and 64, respectively. Finally, the study demonstrates a five-stage organic complementary inverter can successfully amplify artificial electromyogram and electrocardiogram signals with gains of 1000 and 1088, respectively.

DOI

10.1038/s41528-023-00267-y

Date of this Version

8-11-2023

Recommended Citation

Mirshojaeian Hosseini, M.J., Yang, Y., Kruger, W. et al. 270 nm ultra-thin self-adhesive conformable and long-term air-stable complimentary organic transistors and amplifiers. npj Flex Electron 7, 38 (2023). https://doi.org/10.1038/s41528-023-00267-y

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