Deuteration Effects on the Physical and Optoelectronic Properties of Donor-Acceptor Conjugated Polymers

Kundu Thapa; Madison Mooney; Guorong Ma; Zhiqiang Cao; Gage T. Mason; Naresh Eedugurala; Surabhi Jha; Derek L. Patton; Jason D. Azoulay; Simon Rondeau-Gagné; Xiaodan Gu

doi:10.1021/acs.macromol.4c02778

Deuteration Effects on the Physical and Optoelectronic Properties of Donor-Acceptor Conjugated Polymers

Kundu Thapa, Madison Mooney, Guorong Ma, Zhiqiang Cao, Gage T. Mason, Naresh Eedugurala, Surabhi Jha, Derek L. Patton, Jason D. Azoulay, Simon Rondeau-Gagné, Xiaodan Gu

SANS & Spin Echo

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Abstract

The significant differences in scattering cross sections between deuterium and protium are unique to neutron scattering techniques and have been a long-standing area of interest within the neutron scattering community. Researchers have explored selective deuteration to manipulate scattering contrast in soft matter systems, leading to the widespread use of deuterium labeling in materials development. As deuteration changes the atomic mass, it alters physical properties such as molecular volume, polarizability, and polarity, which in turn may affect noncovalent interactions and crystal ordering. Despite previous studies, there remains a limited understanding of how deuteration impacts donor-acceptor (DA) conjugated polymers. To address this, we synthesized deuterated DPP polymers and systematically investigated the effects of side-chain deuteration on their thermal stability, crystal packing, morphology, and optoelectronic properties. We found that deuteration increased the melting and crystallization temperatures of DPP polymers, although it did not significantly alter their morphology, molecular packing, or charge mobility. These properties were assessed by using atomic force microscopy (AFM), X-ray scattering, and thin-film transistor device measurements, respectively, for DPP polymers. Our work shows that deuterium labeling could be a powerful method for controlling scattering length density, enabling neutrons to study the structure and dynamics of conjugated polymers without impacting their electronic performance.

Original language	English
Pages (from-to)	4780-4789
Number of pages	10
Journal	Macromolecules
Volume	58
Issue number	9
DOIs	https://doi.org/10.1021/acs.macromol.4c02778
State	Published - May 13 2025

Funding

Part of this research is conducted at the Center for Nanophase Materials Sciences, which is a DOE Office of Science User Facility. We thank Yunfei Wang for assisting in thin-film transistor measurements, Yangyang Wang from CNMS of Oak Ridge National Laboratory for assisting in replicating DSC experiments, and Kunlun Hong from CNMS of Oak Ridge National Laboratory for assisting the deuterated side-chain synthesis. This work was supported by the U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences under award number DE-SC0022050. S.R.-G. thanks the Natural Sciences and Engineering Research Council of Canada (NSERC) for support through a Discovery Grants (RGPIN-2022-04428). M.M. thanks NSERC for financial support through a Canada Postgraduate Scholarship - Doctoral (PGS-D). G.T.M. thanks the Government of Ontario for support through an Ontario Graduate Scholarship (OGS). This work was supported by the U.S. Department of Energy, Office of Science, Office of Basic Energy Sciences under award number DE-SC0022050. S.R.-G. thanks the Natural Sciences and Engineering Research Council of Canada (NSERC) for support through a Discovery Grants (RGPIN-2022–04428). M.M. thanks NSERC for financial support through a Canada Postgraduate Scholarship – Doctoral (PGS-D). G.T.M. thanks the Government of Ontario for support through an Ontario Graduate Scholarship (OGS).

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title = "Deuteration Effects on the Physical and Optoelectronic Properties of Donor-Acceptor Conjugated Polymers",

abstract = "The significant differences in scattering cross sections between deuterium and protium are unique to neutron scattering techniques and have been a long-standing area of interest within the neutron scattering community. Researchers have explored selective deuteration to manipulate scattering contrast in soft matter systems, leading to the widespread use of deuterium labeling in materials development. As deuteration changes the atomic mass, it alters physical properties such as molecular volume, polarizability, and polarity, which in turn may affect noncovalent interactions and crystal ordering. Despite previous studies, there remains a limited understanding of how deuteration impacts donor-acceptor (DA) conjugated polymers. To address this, we synthesized deuterated DPP polymers and systematically investigated the effects of side-chain deuteration on their thermal stability, crystal packing, morphology, and optoelectronic properties. We found that deuteration increased the melting and crystallization temperatures of DPP polymers, although it did not significantly alter their morphology, molecular packing, or charge mobility. These properties were assessed by using atomic force microscopy (AFM), X-ray scattering, and thin-film transistor device measurements, respectively, for DPP polymers. Our work shows that deuterium labeling could be a powerful method for controlling scattering length density, enabling neutrons to study the structure and dynamics of conjugated polymers without impacting their electronic performance.",

author = "Kundu Thapa and Madison Mooney and Guorong Ma and Zhiqiang Cao and Mason, \{Gage T.\} and Naresh Eedugurala and Surabhi Jha and Patton, \{Derek L.\} and Azoulay, \{Jason D.\} and Simon Rondeau-Gagn{\'e} and Xiaodan Gu",

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AU - Ma, Guorong

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AU - Mason, Gage T.

AU - Eedugurala, Naresh

AU - Jha, Surabhi

AU - Patton, Derek L.

AU - Azoulay, Jason D.

AU - Rondeau-Gagné, Simon

AU - Gu, Xiaodan

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N2 - The significant differences in scattering cross sections between deuterium and protium are unique to neutron scattering techniques and have been a long-standing area of interest within the neutron scattering community. Researchers have explored selective deuteration to manipulate scattering contrast in soft matter systems, leading to the widespread use of deuterium labeling in materials development. As deuteration changes the atomic mass, it alters physical properties such as molecular volume, polarizability, and polarity, which in turn may affect noncovalent interactions and crystal ordering. Despite previous studies, there remains a limited understanding of how deuteration impacts donor-acceptor (DA) conjugated polymers. To address this, we synthesized deuterated DPP polymers and systematically investigated the effects of side-chain deuteration on their thermal stability, crystal packing, morphology, and optoelectronic properties. We found that deuteration increased the melting and crystallization temperatures of DPP polymers, although it did not significantly alter their morphology, molecular packing, or charge mobility. These properties were assessed by using atomic force microscopy (AFM), X-ray scattering, and thin-film transistor device measurements, respectively, for DPP polymers. Our work shows that deuterium labeling could be a powerful method for controlling scattering length density, enabling neutrons to study the structure and dynamics of conjugated polymers without impacting their electronic performance.

AB - The significant differences in scattering cross sections between deuterium and protium are unique to neutron scattering techniques and have been a long-standing area of interest within the neutron scattering community. Researchers have explored selective deuteration to manipulate scattering contrast in soft matter systems, leading to the widespread use of deuterium labeling in materials development. As deuteration changes the atomic mass, it alters physical properties such as molecular volume, polarizability, and polarity, which in turn may affect noncovalent interactions and crystal ordering. Despite previous studies, there remains a limited understanding of how deuteration impacts donor-acceptor (DA) conjugated polymers. To address this, we synthesized deuterated DPP polymers and systematically investigated the effects of side-chain deuteration on their thermal stability, crystal packing, morphology, and optoelectronic properties. We found that deuteration increased the melting and crystallization temperatures of DPP polymers, although it did not significantly alter their morphology, molecular packing, or charge mobility. These properties were assessed by using atomic force microscopy (AFM), X-ray scattering, and thin-film transistor device measurements, respectively, for DPP polymers. Our work shows that deuterium labeling could be a powerful method for controlling scattering length density, enabling neutrons to study the structure and dynamics of conjugated polymers without impacting their electronic performance.

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Deuteration Effects on the Physical and Optoelectronic Properties of Donor-Acceptor Conjugated Polymers

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