Efficient N‐Type Organic Electrochemical Transistors and Field‐Effect Transistors Based on PNDI‐Copolymers Bearing Fluorinated Selenophene‐Vinylene‐Selenophenes

Jongho Kim; Xinglong Ren; Youcheng Zhang; Daniele Fazzi; Suraj Manikandan; Jens Wenzel Andreasen; Xiuming Sun; Sarah Ursel; Hio‐Ieng Un; Sébastien Peralta; Mingfei Xiao; James Town; Arkadios Marathianos; Stefan Roesner; Thanh‐Tuan Bui; Sabine Ludwigs; Henning Sirringhaus; Suhao Wang

doi:10.1002/advs.202303837

Advanced Science (Oct 2023)

Efficient N‐Type Organic Electrochemical Transistors and Field‐Effect Transistors Based on PNDI‐Copolymers Bearing Fluorinated Selenophene‐Vinylene‐Selenophenes

Jongho Kim,
Xinglong Ren,
Youcheng Zhang,
Daniele Fazzi,
Suraj Manikandan,
Jens Wenzel Andreasen,
Xiuming Sun,
Sarah Ursel,
Hio‐Ieng Un,
Sébastien Peralta,
Mingfei Xiao,
James Town,
Arkadios Marathianos,
Stefan Roesner,
Thanh‐Tuan Bui,
Sabine Ludwigs,
Henning Sirringhaus,
Suhao Wang

Affiliations

Jongho Kim: Laboratoire de Physicochimie des Polymères et des Interfaces CY Cergy Paris Université 5 Mail Gay Lussac Neuville‐sur‐Oise 95000 France
Xinglong Ren: Optoelectronics Group Cavendish Laboratory University of Cambridge JJ Thomson Avenue Cambridge CB3 0HE UK
Youcheng Zhang: Optoelectronics Group Cavendish Laboratory University of Cambridge JJ Thomson Avenue Cambridge CB3 0HE UK
Daniele Fazzi: Dipartimento di Chimica “Giacomo Ciamician” Università di Bologna Via F. Selmi 2 Bologna 40126 Italy
Suraj Manikandan: Department of Energy Conversion and Storage Technical University of Denmark Kgs. Lyngby 2800 Denmark
Jens Wenzel Andreasen: Department of Energy Conversion and Storage Technical University of Denmark Kgs. Lyngby 2800 Denmark
Xiuming Sun: IPOC‐Functional Polymers Institute of Polymer Chemistry and Center for Integrated Quantum Science and Technology(IQST) University of Stuttgart Pfaffenwaldring 55 70569 Stuttgart Germany
Sarah Ursel: Optoelectronics Group Cavendish Laboratory University of Cambridge JJ Thomson Avenue Cambridge CB3 0HE UK
Hio‐Ieng Un: Optoelectronics Group Cavendish Laboratory University of Cambridge JJ Thomson Avenue Cambridge CB3 0HE UK
Sébastien Peralta: Laboratoire de Physicochimie des Polymères et des Interfaces CY Cergy Paris Université 5 Mail Gay Lussac Neuville‐sur‐Oise 95000 France
Mingfei Xiao: Optoelectronics Group Cavendish Laboratory University of Cambridge JJ Thomson Avenue Cambridge CB3 0HE UK
James Town: Department of Chemistry University of Warwick Gibbet Hill Road Coventry CV4 7AL UK
Arkadios Marathianos: Department of Chemistry University of Warwick Gibbet Hill Road Coventry CV4 7AL UK
Stefan Roesner: Department of Chemistry University of Warwick Gibbet Hill Road Coventry CV4 7AL UK
Thanh‐Tuan Bui: Laboratoire de Physicochimie des Polymères et des Interfaces CY Cergy Paris Université 5 Mail Gay Lussac Neuville‐sur‐Oise 95000 France
Sabine Ludwigs: IPOC‐Functional Polymers Institute of Polymer Chemistry and Center for Integrated Quantum Science and Technology(IQST) University of Stuttgart Pfaffenwaldring 55 70569 Stuttgart Germany
Henning Sirringhaus: Optoelectronics Group Cavendish Laboratory University of Cambridge JJ Thomson Avenue Cambridge CB3 0HE UK
Suhao Wang: Laboratoire de Physicochimie des Polymères et des Interfaces CY Cergy Paris Université 5 Mail Gay Lussac Neuville‐sur‐Oise 95000 France

DOI: https://doi.org/10.1002/advs.202303837
Journal volume & issue: Vol. 10, no. 29
pp. n/a – n/a

Abstract

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Abstract n‐Type organic electrochemical transistors (OECTs) and organic field‐effect transistors (OFETs) are less developed than their p‐type counterparts. Herein, polynaphthalenediimide (PNDI)‐based copolymers bearing novel fluorinated selenophene‐vinylene‐selenophene (FSVS) units as efficient materials for both n‐type OECTs and n‐type OFETs are reported. The PNDI polymers with oligo(ethylene glycol) (EG7) side chains P(NDIEG7‐FSVS), affords a high µC* of > 0.2 F cm−1 V−1 s−1, outperforming the benchmark n‐type Pg4NDI‐T2 and Pg4NDI‐gT2 by two orders of magnitude. The deep‐lying LUMO of −4.63 eV endows P(NDIEG7‐FSVS) with an ultra‐low threshold voltage of 0.16 V. Moreover, the conjugated polymer with octyldodecyl (OD) side chains P(NDIOD‐FSVS) exhibits a surprisingly low energetic disorder with an Urbach energy of 36 meV and an ultra‐low activation energy of 39 meV, resulting in high electron mobility of up to 0.32 cm2 V−1 s−1 in n‐type OFETs. These results demonstrate the great potential for simultaneously achieving a lower LUMO and a tighter intermolecular packing for the next‐generation efficient n‐type organic electronics.

Published in Advanced Science

ISSN: 2198-3844 (Online)
Publisher: Wiley
Country of publisher: Germany
LCC subjects: Science
Website: https://onlinelibrary.wiley.com/journal/21983844

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