High Performance Organic Mixed Ionic-Electronic Polymeric Conductor with Stability to Autoclave Sterilization

Hailiang Liao; Achilleas Savva; Adam V. Marsh; Yu Ying Yang; Hendrik Faber; Martina Rimmele; Matteo Sanviti; Renqian Zhou; Abdul Hamid Emwas; null More Authors

doi:10.1002/anie.202416288

High Performance Organic Mixed Ionic-Electronic Polymeric Conductor with Stability to Autoclave Sterilization

Hailiang Liao, Achilleas Savva, Adam V. Marsh, Yu Ying Yang, Hendrik Faber, Martina Rimmele, Matteo Sanviti, Renqian Zhou, Abdul Hamid Emwas, More Authors

Bio-Electronics

Research output: Contribution to journal › Article › Scientific › peer-review

Abstract

We present a series of newly developed donor-acceptor (D-A) polymers designed specifically for organic electrochemical transistors (OECTs) synthesized by a straightforward route. All polymers exhibited accumulation mode behavior in OECT devices, and tuning of the donor comonomer resulted in a three-order-of-magnitude increase in transconductance. The best polymer gFBT-g2T, exhibited normalized peak transconductance (g_m,norm) of 298±10.4 S cm⁻¹ with a corresponding product of charge-carrier mobility and volumetric capacitance, μC*, of 847 F V⁻¹ cm⁻¹ s⁻¹ and a μ of 5.76 cm² V⁻¹ s⁻¹, amongst the highest reported to date. Furthermore, gFBT-g2T exhibited exceptional temperature stability, maintaining the outstanding electrochemical performance even after undergoing a standard (autoclave) high pressure steam sterilization procedure. Steam treatment was also found to promote film porosity, with the formation of circular 200–400 nm voids. These results demonstrate the potential of gFBT-g2T in p-type accumulation mode OECTs, and pave the way for the use in implantable bioelectronics for medical applications.

Original language	English
Article number	e202416288
Number of pages	11
Journal	Angewandte Chemie - International Edition
Volume	64
Issue number	4
DOIs	https://doi.org/10.1002/anie.202416288
Publication status	Published - 2025

Keywords

autoclave
donor-acceptor polymers
high temperature stability
mixed ionic electronic conductors
organic electrochemical transistors

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Angew Chem Int Ed - 2024 - Liao - High Performance Organic Mixed Ionic‐Electronic Polymeric Conductor with Stability toFinal published version, 1.66 MB

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title = "High Performance Organic Mixed Ionic-Electronic Polymeric Conductor with Stability to Autoclave Sterilization",

abstract = "We present a series of newly developed donor-acceptor (D-A) polymers designed specifically for organic electrochemical transistors (OECTs) synthesized by a straightforward route. All polymers exhibited accumulation mode behavior in OECT devices, and tuning of the donor comonomer resulted in a three-order-of-magnitude increase in transconductance. The best polymer gFBT-g2T, exhibited normalized peak transconductance (gm,norm) of 298±10.4 S cm−1 with a corresponding product of charge-carrier mobility and volumetric capacitance, μC*, of 847 F V−1 cm−1 s−1 and a μ of 5.76 cm2 V−1 s−1, amongst the highest reported to date. Furthermore, gFBT-g2T exhibited exceptional temperature stability, maintaining the outstanding electrochemical performance even after undergoing a standard (autoclave) high pressure steam sterilization procedure. Steam treatment was also found to promote film porosity, with the formation of circular 200–400 nm voids. These results demonstrate the potential of gFBT-g2T in p-type accumulation mode OECTs, and pave the way for the use in implantable bioelectronics for medical applications.",

keywords = "autoclave, donor-acceptor polymers, high temperature stability, mixed ionic electronic conductors, organic electrochemical transistors",

author = "Hailiang Liao and Achilleas Savva and Marsh, {Adam V.} and Yang, {Yu Ying} and Hendrik Faber and Martina Rimmele and Matteo Sanviti and Renqian Zhou and Emwas, {Abdul Hamid} and {More Authors}",

year = "2025",

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AU - Liao, Hailiang

AU - Savva, Achilleas

AU - Marsh, Adam V.

AU - Yang, Yu Ying

AU - Faber, Hendrik

AU - Rimmele, Martina

AU - Sanviti, Matteo

AU - Zhou, Renqian

AU - Emwas, Abdul Hamid

AU - More Authors, null

PY - 2025

Y1 - 2025

N2 - We present a series of newly developed donor-acceptor (D-A) polymers designed specifically for organic electrochemical transistors (OECTs) synthesized by a straightforward route. All polymers exhibited accumulation mode behavior in OECT devices, and tuning of the donor comonomer resulted in a three-order-of-magnitude increase in transconductance. The best polymer gFBT-g2T, exhibited normalized peak transconductance (gm,norm) of 298±10.4 S cm−1 with a corresponding product of charge-carrier mobility and volumetric capacitance, μC*, of 847 F V−1 cm−1 s−1 and a μ of 5.76 cm2 V−1 s−1, amongst the highest reported to date. Furthermore, gFBT-g2T exhibited exceptional temperature stability, maintaining the outstanding electrochemical performance even after undergoing a standard (autoclave) high pressure steam sterilization procedure. Steam treatment was also found to promote film porosity, with the formation of circular 200–400 nm voids. These results demonstrate the potential of gFBT-g2T in p-type accumulation mode OECTs, and pave the way for the use in implantable bioelectronics for medical applications.

AB - We present a series of newly developed donor-acceptor (D-A) polymers designed specifically for organic electrochemical transistors (OECTs) synthesized by a straightforward route. All polymers exhibited accumulation mode behavior in OECT devices, and tuning of the donor comonomer resulted in a three-order-of-magnitude increase in transconductance. The best polymer gFBT-g2T, exhibited normalized peak transconductance (gm,norm) of 298±10.4 S cm−1 with a corresponding product of charge-carrier mobility and volumetric capacitance, μC*, of 847 F V−1 cm−1 s−1 and a μ of 5.76 cm2 V−1 s−1, amongst the highest reported to date. Furthermore, gFBT-g2T exhibited exceptional temperature stability, maintaining the outstanding electrochemical performance even after undergoing a standard (autoclave) high pressure steam sterilization procedure. Steam treatment was also found to promote film porosity, with the formation of circular 200–400 nm voids. These results demonstrate the potential of gFBT-g2T in p-type accumulation mode OECTs, and pave the way for the use in implantable bioelectronics for medical applications.

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High Performance Organic Mixed Ionic-Electronic Polymeric Conductor with Stability to Autoclave Sterilization

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