Resonance-Assisted Self-Doping in Robust Open-Shell Ladder-Type Oligoaniline Analogues

Mingwan Leng; Turki M. Alturaifi; Josiah Pearce; Hengyu Lin; Guanghua Yu; Mohammed Al-Hashimi; Hong Cai Zhou; Peng Liu; Lei Fang

doi:10.1002/anie.202409149

Resonance-Assisted Self-Doping in Robust Open-Shell Ladder-Type Oligoaniline Analogues

Mingwan Leng, Turki M. Alturaifi, Josiah Pearce, Hengyu Lin, Guanghua Yu, Mohammed Al-Hashimi, Hong Cai Zhou^*, Peng Liu^*, Lei Fang^*

^*Corresponding author for this work

HBKU College of Science and Engineering

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

Abstract

A novel resonance-assisted self-doping mechanism has been demonstrated in ladder-type oligoaniline-derived organic conductors. The new class of compounds has a unique structure incorporating acidic phenolic hydroxyl groups into the ladder-type cyclohexadiene-1,4-diimine core, enabling efficient resonance-assisted proton transfer and electronic doping without the need for external dopants. Mechanistic and computational studies confirm the open-shell, zwitterionic nature of the self-doped state and the significant role played by the dielectric environment. This new self-doping mechanism allows for higher stability and durability in the material‘s electronic performance. The self-doped form retains durability under harsh conditions and maintains its properties over extended periods of time.

Original language	English
Article number	e202409149
Number of pages	8
Journal	Angewandte Chemie - International Edition
Volume	63
Issue number	49
Early online date	Oct 2024
DOIs	https://doi.org/10.1002/anie.202409149
Publication status	Published - 2 Dec 2024

Keywords

Doping
Fused ring pi-system
Oligoaniline
Open-shell
Organic conductor
Proton transfer

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10.1002/anie.202409149

Cite this

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title = "Resonance-Assisted Self-Doping in Robust Open-Shell Ladder-Type Oligoaniline Analogues",

abstract = "A novel resonance-assisted self-doping mechanism has been demonstrated in ladder-type oligoaniline-derived organic conductors. The new class of compounds has a unique structure incorporating acidic phenolic hydroxyl groups into the ladder-type cyclohexadiene-1,4-diimine core, enabling efficient resonance-assisted proton transfer and electronic doping without the need for external dopants. Mechanistic and computational studies confirm the open-shell, zwitterionic nature of the self-doped state and the significant role played by the dielectric environment. This new self-doping mechanism allows for higher stability and durability in the material{\textquoteleft}s electronic performance. The self-doped form retains durability under harsh conditions and maintains its properties over extended periods of time.",

keywords = "Doping, Fused ring pi-system, Oligoaniline, Open-shell, Organic conductor, Proton transfer",

author = "Mingwan Leng and Alturaifi, {Turki M.} and Josiah Pearce and Hengyu Lin and Guanghua Yu and Mohammed Al-Hashimi and Zhou, {Hong Cai} and Peng Liu and Lei Fang",

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AU - Leng, Mingwan

AU - Alturaifi, Turki M.

AU - Pearce, Josiah

AU - Lin, Hengyu

AU - Yu, Guanghua

AU - Al-Hashimi, Mohammed

AU - Zhou, Hong Cai

AU - Liu, Peng

AU - Fang, Lei

PY - 2024/12/2

Y1 - 2024/12/2

N2 - A novel resonance-assisted self-doping mechanism has been demonstrated in ladder-type oligoaniline-derived organic conductors. The new class of compounds has a unique structure incorporating acidic phenolic hydroxyl groups into the ladder-type cyclohexadiene-1,4-diimine core, enabling efficient resonance-assisted proton transfer and electronic doping without the need for external dopants. Mechanistic and computational studies confirm the open-shell, zwitterionic nature of the self-doped state and the significant role played by the dielectric environment. This new self-doping mechanism allows for higher stability and durability in the material‘s electronic performance. The self-doped form retains durability under harsh conditions and maintains its properties over extended periods of time.

AB - A novel resonance-assisted self-doping mechanism has been demonstrated in ladder-type oligoaniline-derived organic conductors. The new class of compounds has a unique structure incorporating acidic phenolic hydroxyl groups into the ladder-type cyclohexadiene-1,4-diimine core, enabling efficient resonance-assisted proton transfer and electronic doping without the need for external dopants. Mechanistic and computational studies confirm the open-shell, zwitterionic nature of the self-doped state and the significant role played by the dielectric environment. This new self-doping mechanism allows for higher stability and durability in the material‘s electronic performance. The self-doped form retains durability under harsh conditions and maintains its properties over extended periods of time.

KW - Doping

KW - Fused ring pi-system

KW - Oligoaniline

KW - Open-shell

KW - Organic conductor

KW - Proton transfer

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Resonance-Assisted Self-Doping in Robust Open-Shell Ladder-Type Oligoaniline Analogues

Abstract

Keywords

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