Preparation of Thermally and Photochemically Immobilized N-type Conjugated Polymer Films via Quantitative Backbone Editing

Charlotte Rapley; Adam V. Marsh; Edgar Gutierrez-Fernandez; Mohamad Insan Nugraha; Flurin Eisner; Martina Rimmele; Jaime Martín; Thomas D. Anthopoulos; Martin Heeney

doi:10.1002/anie.202505608

Preparation of Thermally and Photochemically Immobilized N-type Conjugated Polymer Films via Quantitative Backbone Editing

Charlotte Rapley, Adam V. Marsh, Edgar Gutierrez-Fernandez, Mohamad Insan Nugraha, Flurin Eisner, Martina Rimmele, Jaime Martín, Thomas D. Anthopoulos, Martin Heeney^*

^*Corresponding author for this work

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

Abstract

We report a series of n-type conjugated polymers based on PNDI-TfBTT and PNDIV-TfBTT backbones constructed from electron-deficient naphthalene diimide (NDI) and fluorinated benzothiadiazole (fBT) units, with PNDIV-TfBTT incorporating a vinylene spacer. Quantitative postpolymerization modification (PPM) via nucleophilic substitution replaced the fBT fluorine with thioether side chains, optionally containing azide groups. Thioether substitution improved solubility, while subtly changing the ordering of polymer films. Azide incorporation enabled both thermal and photochemical crosslinking, yielding insoluble and immobile films that retained good electron transport; although UV crosslinking initially reduced mobility, subsequent thermal annealing largely restored crystallinity and performance. This work underscores the utility of precise backbone editing to fine-tune the electronic and morphological properties of n-type polymers, offering new avenues for the fabrication of stable, patterned active layers in advanced organic electronic devices.

Original language	English (US)
Article number	e202505608
Journal	Angewandte Chemie - International Edition
Volume	64
Issue number	23
DOIs	https://doi.org/10.1002/anie.202505608
State	Accepted/In press - 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Angewandte Chemie International Edition published by Wiley-VCH GmbH.

Keywords

Backbone editing
Conjugated polymer
Cross-linking
N-type material
Postpolymerization functionalization

ASJC Scopus subject areas

Catalysis
General Chemistry

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10.1002/anie.202505608

Cite this

Rapley, C., Marsh, A. V., Gutierrez-Fernandez, E., Nugraha, M. I., Eisner, F., Rimmele, M., Martín, J., Anthopoulos, T. D., & Heeney, M. (Accepted/In press). Preparation of Thermally and Photochemically Immobilized N-type Conjugated Polymer Films via Quantitative Backbone Editing. Angewandte Chemie - International Edition, 64(23), Article e202505608. https://doi.org/10.1002/anie.202505608

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abstract = "We report a series of n-type conjugated polymers based on PNDI-TfBTT and PNDIV-TfBTT backbones constructed from electron-deficient naphthalene diimide (NDI) and fluorinated benzothiadiazole (fBT) units, with PNDIV-TfBTT incorporating a vinylene spacer. Quantitative postpolymerization modification (PPM) via nucleophilic substitution replaced the fBT fluorine with thioether side chains, optionally containing azide groups. Thioether substitution improved solubility, while subtly changing the ordering of polymer films. Azide incorporation enabled both thermal and photochemical crosslinking, yielding insoluble and immobile films that retained good electron transport; although UV crosslinking initially reduced mobility, subsequent thermal annealing largely restored crystallinity and performance. This work underscores the utility of precise backbone editing to fine-tune the electronic and morphological properties of n-type polymers, offering new avenues for the fabrication of stable, patterned active layers in advanced organic electronic devices.",

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author = "Charlotte Rapley and Marsh, \{Adam V.\} and Edgar Gutierrez-Fernandez and Nugraha, \{Mohamad Insan\} and Flurin Eisner and Martina Rimmele and Jaime Mart{\'i}n and Anthopoulos, \{Thomas D.\} and Martin Heeney",

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year = "2025",

doi = "10.1002/anie.202505608",

language = "English (US)",

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AU - Rapley, Charlotte

AU - Marsh, Adam V.

AU - Gutierrez-Fernandez, Edgar

AU - Nugraha, Mohamad Insan

AU - Eisner, Flurin

AU - Rimmele, Martina

AU - Martín, Jaime

AU - Anthopoulos, Thomas D.

AU - Heeney, Martin

PY - 2025

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N2 - We report a series of n-type conjugated polymers based on PNDI-TfBTT and PNDIV-TfBTT backbones constructed from electron-deficient naphthalene diimide (NDI) and fluorinated benzothiadiazole (fBT) units, with PNDIV-TfBTT incorporating a vinylene spacer. Quantitative postpolymerization modification (PPM) via nucleophilic substitution replaced the fBT fluorine with thioether side chains, optionally containing azide groups. Thioether substitution improved solubility, while subtly changing the ordering of polymer films. Azide incorporation enabled both thermal and photochemical crosslinking, yielding insoluble and immobile films that retained good electron transport; although UV crosslinking initially reduced mobility, subsequent thermal annealing largely restored crystallinity and performance. This work underscores the utility of precise backbone editing to fine-tune the electronic and morphological properties of n-type polymers, offering new avenues for the fabrication of stable, patterned active layers in advanced organic electronic devices.

AB - We report a series of n-type conjugated polymers based on PNDI-TfBTT and PNDIV-TfBTT backbones constructed from electron-deficient naphthalene diimide (NDI) and fluorinated benzothiadiazole (fBT) units, with PNDIV-TfBTT incorporating a vinylene spacer. Quantitative postpolymerization modification (PPM) via nucleophilic substitution replaced the fBT fluorine with thioether side chains, optionally containing azide groups. Thioether substitution improved solubility, while subtly changing the ordering of polymer films. Azide incorporation enabled both thermal and photochemical crosslinking, yielding insoluble and immobile films that retained good electron transport; although UV crosslinking initially reduced mobility, subsequent thermal annealing largely restored crystallinity and performance. This work underscores the utility of precise backbone editing to fine-tune the electronic and morphological properties of n-type polymers, offering new avenues for the fabrication of stable, patterned active layers in advanced organic electronic devices.

KW - Backbone editing

KW - Conjugated polymer

KW - Cross-linking

KW - N-type material

KW - Postpolymerization functionalization

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SN - 1433-7851

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JO - Angewandte Chemie - International Edition

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Preparation of Thermally and Photochemically Immobilized N-type Conjugated Polymer Films via Quantitative Backbone Editing

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

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