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Fully 3D-printed organic electrochemical transistors

Massetti, Matteo (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten
Zhang, Silan (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten,Wallenberg Wood Science Center
Padinhare, Harikesh (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten
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Burtscher, Bernhard (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten
Diacci, Chiara (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten
Simon, Daniel (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten
Liu, Xianjie (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten
Fahlman, Mats (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten,Wallenberg Wood Science Center
Tu, Deyu (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten
Berggren, Magnus (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten,Wallenberg Wood Science Center
Fabiano, Simone (author)
Linköpings universitet,Laboratoriet för organisk elektronik,Tekniska fakulteten,Wallenberg Wood Science Center
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 (creator_code:org_t)
2023-03-07
2023
English.
In: NPJ FLEXIBLE ELECTRONICS. - : NATURE PORTFOLIO. - 2397-4621. ; 7:1
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  • Journal article (peer-reviewed)
Abstract Subject headings
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  • Organic electrochemical transistors (OECTs) are being researched for various applications, ranging from sensors to logic gates and neuromorphic hardware. To meet the requirements of these diverse applications, the device fabrication process must be compatible with flexible and scalable digital techniques. Here, we report a direct-write additive process to fabricate fully 3D-printed OECTs, using 3D printable conducting, semiconducting, insulating, and electrolyte inks. These 3D-printed OECTs, which operate in the depletion mode, can be fabricated on flexible substrates, resulting in high mechanical and environmental stability. The 3D-printed OECTs have good dopamine biosensing capabilities (limit of detection down to 6 mu M without metal gate electrodes) and show long-term (similar to 1 h) synapse response, indicating their potential for various applications such as sensors and neuromorphic hardware. This manufacturing strategy is suitable for applications that require rapid design changes and digitally enabled direct-write techniques.

Subject headings

TEKNIK OCH TEKNOLOGIER  -- Elektroteknik och elektronik -- Annan elektroteknik och elektronik (hsv//swe)
ENGINEERING AND TECHNOLOGY  -- Electrical Engineering, Electronic Engineering, Information Engineering -- Other Electrical Engineering, Electronic Engineering, Information Engineering (hsv//eng)

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