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March 26, 2026Open Access

Development of Transparent, Stretchable Organic Electrochemical Transistors for Bio signal Amplification

Key Points

The aim is to create a new type of transparent, stretchable organic electrochemical transistor (OECT) for better bio signal amplification.
Developed a fully stretchable transparent OECT using Ag nanowires and semiconducting polymer.
Utilized thin-layered polyurethane architecture to enhance flexibility and prevent failure under stress.
Measured optical transmittance, strain tolerance, and transconductance under operational conditions.
Achieved 87% optical transmittance at 550 nm.
Demonstrated operation under 100% strain with a transconductance of 1.74 mS.
Provided a 2.5-fold voltage gain in a simple amplifier configuration.

Abstract

Transparent organic electrochemical transistors (OECTs) combine mechanical flexibility with low-voltage operation, enabling multimodal biophysical sensing when coupled to optical sensing. Conventional OECTs, however, rely on rigid metal films and thus lack stretchability. Here, we develop a fully stretchable, transparent OECT by utilizing Ag nanowires (AgNWs) and semiconducting polymer in a thin-layered polyurethane (PU) architecture that suppresses stress-induced failure. The OECT shows 87 % optical transmittance at 550 nm and transistor operation under 100 % strain. In addition, the device exhibits a transconductance of 1.74 mS and, in a simple amplifier, provides a 2.5-fold voltage gain. Therefore, the device promises utility in advanced wearable healthcare systems.

Development of Transparent, Stretchable Organic Electrochemical Transistors for Bio signal Amplification

Key Points

Abstract

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