Sulfenate anions as organocatalysts for benzylic chloromethyl coupling polymerization via C=C bond formation

Minyan Li; Simon Berritt; Carol Wang; Xiaodong Yang; Yang Liu; Sheng Chun Sha; Bo Wang; Rui Wang; Xuyu Gao; Zhanyong Li; Xinyuan Fan; Youtian Tao; Patrick J. Walsh

doi:10.1038/s41467-018-04095-x

Sulfenate anions as organocatalysts for benzylic chloromethyl coupling polymerization via C=C bond formation

Minyan Li, Simon Berritt, Carol Wang, Xiaodong Yang, Yang Liu, Sheng Chun Sha, Bo Wang, Rui Wang, Xuyu Gao, Zhanyong Li, Xinyuan Fan, Youtian Tao, Patrick J. Walsh

SCHOOL OF FLEXIBLE ELECTRONICS(FUTURE TECHNOLOGIES)|INSTITUTE OF ADVANCED MATERIALS(IAM)

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

11 Scopus citations

Abstract

Organocatalytic polymerization reactions have a number of advantages over their metal-catalyzed counterparts, including environmental friendliness, ease of catalyst synthesis and storage, and alternative reaction pathways. Here we introduce an organocatalytic polymerization method called benzylic chloromethyl-coupling polymerization (BCCP). BCCP is catalyzed by organocatalysts not previously employed in polymerization processes (sulfenate anions), which are generated from bench-stable sulfoxide precatalysts. The sulfenate anion promotes an umpolung polycondensation via step-growth propagation cycles involving sulfoxide intermediates. BCCP represents an example of an organocatalyst that links monomers by C=C double bond formation and offers transition metal-free access to a wide variety of polymers that cannot be synthesized by traditional precursor routes.

Original language	English
Article number	1754
Journal	Nature Communications
Volume	9
Issue number	1
DOIs	https://doi.org/10.1038/s41467-018-04095-x
State	Published - 1 Dec 2018

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title = "Sulfenate anions as organocatalysts for benzylic chloromethyl coupling polymerization via C=C bond formation",

abstract = "Organocatalytic polymerization reactions have a number of advantages over their metal-catalyzed counterparts, including environmental friendliness, ease of catalyst synthesis and storage, and alternative reaction pathways. Here we introduce an organocatalytic polymerization method called benzylic chloromethyl-coupling polymerization (BCCP). BCCP is catalyzed by organocatalysts not previously employed in polymerization processes (sulfenate anions), which are generated from bench-stable sulfoxide precatalysts. The sulfenate anion promotes an umpolung polycondensation via step-growth propagation cycles involving sulfoxide intermediates. BCCP represents an example of an organocatalyst that links monomers by C=C double bond formation and offers transition metal-free access to a wide variety of polymers that cannot be synthesized by traditional precursor routes.",

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T1 - Sulfenate anions as organocatalysts for benzylic chloromethyl coupling polymerization via C=C bond formation

AU - Li, Minyan

AU - Berritt, Simon

AU - Wang, Carol

AU - Yang, Xiaodong

AU - Liu, Yang

AU - Sha, Sheng Chun

AU - Wang, Bo

AU - Wang, Rui

AU - Gao, Xuyu

AU - Li, Zhanyong

AU - Fan, Xinyuan

AU - Tao, Youtian

AU - Walsh, Patrick J.

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Organocatalytic polymerization reactions have a number of advantages over their metal-catalyzed counterparts, including environmental friendliness, ease of catalyst synthesis and storage, and alternative reaction pathways. Here we introduce an organocatalytic polymerization method called benzylic chloromethyl-coupling polymerization (BCCP). BCCP is catalyzed by organocatalysts not previously employed in polymerization processes (sulfenate anions), which are generated from bench-stable sulfoxide precatalysts. The sulfenate anion promotes an umpolung polycondensation via step-growth propagation cycles involving sulfoxide intermediates. BCCP represents an example of an organocatalyst that links monomers by C=C double bond formation and offers transition metal-free access to a wide variety of polymers that cannot be synthesized by traditional precursor routes.

AB - Organocatalytic polymerization reactions have a number of advantages over their metal-catalyzed counterparts, including environmental friendliness, ease of catalyst synthesis and storage, and alternative reaction pathways. Here we introduce an organocatalytic polymerization method called benzylic chloromethyl-coupling polymerization (BCCP). BCCP is catalyzed by organocatalysts not previously employed in polymerization processes (sulfenate anions), which are generated from bench-stable sulfoxide precatalysts. The sulfenate anion promotes an umpolung polycondensation via step-growth propagation cycles involving sulfoxide intermediates. BCCP represents an example of an organocatalyst that links monomers by C=C double bond formation and offers transition metal-free access to a wide variety of polymers that cannot be synthesized by traditional precursor routes.

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Sulfenate anions as organocatalysts for benzylic chloromethyl coupling polymerization via C=C bond formation

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