Progress in Polymer Science

, volume 111 , pages 101311

Reversible-deactivation radical polymerization (Controlled/living radical polymerization): From discovery to materials design and applications

Nathaniel Corrigan ¹

Kenward Jung ¹

Graeme Moad ²

Craig J Hawker ³

Krzysztof Matyjaszewski ⁴

Cyrille Boyer ¹

Hide authors affiliations Show authors affiliations: 4 affiliations

Centre for Advanced Macromolecular Design (CAMD), Australian Centre for Nanomedicine (ACN), and School of Chemical Engineering, University of New South Wales (UNSW) Sydney, Sydney, NSW2052, Australia |

CSIRO Manufacturing Bag 10, Clayton South, VIC3169, Australia |

Materials Research Laboratory and Departments of Materials, Chemistry and Biochemistry, University of California, Santa Barbara, California93106, United States |

⁴

Department of Chemistry, Carnegie Mellon University, 4400 Fifth Avenue, Pittsburgh, Pennsylvania15213, United States |

Publication type: Journal Article

Publication date: 2020-12-01

Elsevier

Progress in Polymer Science

scimago Q1

wos Q1

SJR: 6.089

CiteScore: 49.8

Impact factor: 26.1

ISSN: 00796700, 18731619

DOI: 10.1016/j.progpolymsci.2020.101311

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Materials Chemistry

Ceramics and Composites

Organic Chemistry

Polymers and Plastics

Surfaces and Interfaces

Abstract

Reversible-deactivation radical polymerization (RDRP) processes, such as atom transfer radical polymerization (ATRP), reversible addition-fragmentation chain transfer (RAFT) polymerization and nitroxide mediated polymerization (NMP) have revolutionized polymer synthesis by providing polymer chemists with powerful tools that enable control over architecture, composition and chain length distributions. The user-friendly nature of these procedures have allowed RDRP-derived polymers to be used in the construction of advanced materials with unique and enhanced properties. This review covers the progress of RDRP from its conception to the current state-of-the-art. A brief introduction to the sources of RDRP, general mechanisms, and methodological progressions are presented, and the suite of advanced and highly tailorable materials possible through these techniques is discussed to illustrate the significant potential for even greater impact across multiple disciplines.

Found

2 citations

Chertovich Alexander

🥼 🤝

DSc in Physics and Mathematics

91 publications, 2 342 citations, 1 review

h-index: 25

N.N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences

Lomonosov Moscow State University

2 citations

Alyeva Alisa

7 publications, 22 citations

h-index: 4

2 citations

Ameduri Bruno

68 publications, 1 462 citations, 47 reviews

h-index: 16

University of Montpellier

Lomonosov Moscow State University

1 citation

Kozhunova Elena

🥼 🤝

PhD in Physics and Mathematics

41 publications, 395 citations, 11 reviews

h-index: 12

Lomonosov Moscow State University

A.N.Nesmeyanov Institute of Organoelement Compounds of the Russian Academy of Sciences

N.N. Semenov Federal Research Center for Chemical Physics of the Russian Academy of Sciences

1 citation

Postnikov Pavel

🥼

DSc in Chemistry

218 publications, 4 638 citations

h-index: 37

National Research Tomsk Polytechnic University

N.N. Vorozhtsov Novosibirsk Institute of Organic Chemistry of the Siberian Branch of the Russian Academy of Sciences

Metal-organic coordination polymers

Nanophotonics

Non-covalent Interactions

Organic Chemistry

Physical Chemistry

Plasmonics

Supramolecular chemistry

1 citation

Sivaev Igor

DSc in Chemistry

235 publications, 5 874 citations

h-index: 38

A.N.Nesmeyanov Institute of Organoelement Compounds of the Russian Academy of Sciences

National Research University Higher School of Economics

Research interests

Boron Chemistry

Coordination Chemistry

Organometallic Chemistry

1 citation

Kurmaz Vladimir

PhD in Chemistry

45 publications, 346 citations

h-index: 12

Federal Research Center of Problem of Chemical Physics and Medicinal Chemistry RAS

Research interests

Electrochemistry

Electrochemistry of organomercury compounds

Organic electrochemistry

Organic radicals

Photoemission

Reaction mechanisms

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GOST Copy

Corrigan N. et al. Reversible-deactivation radical polymerization (Controlled/living radical polymerization): From discovery to materials design and applications // Progress in Polymer Science. 2020. Vol. 111. p. 101311.

GOST all authors (up to 50) Copy

Corrigan N., Jung K., Moad G., Hawker C. J., Matyjaszewski K., Boyer C. Reversible-deactivation radical polymerization (Controlled/living radical polymerization): From discovery to materials design and applications // Progress in Polymer Science. 2020. Vol. 111. p. 101311.

RIS |

Cite this

RIS Copy

TY - JOUR

DO - 10.1016/j.progpolymsci.2020.101311

UR - https://doi.org/10.1016/j.progpolymsci.2020.101311

TI - Reversible-deactivation radical polymerization (Controlled/living radical polymerization): From discovery to materials design and applications

T2 - Progress in Polymer Science

AU - Corrigan, Nathaniel

AU - Jung, Kenward

AU - Moad, Graeme

AU - Hawker, Craig J

AU - Matyjaszewski, Krzysztof

AU - Boyer, Cyrille

PY - 2020

DA - 2020/12/01

PB - Elsevier

SP - 101311

VL - 111

SN - 0079-6700

SN - 1873-1619

ER -

BibTex

Cite this

BibTex (up to 50 authors) Copy

@article{2020_Corrigan,

author = {Nathaniel Corrigan and Kenward Jung and Graeme Moad and Craig J Hawker and Krzysztof Matyjaszewski and Cyrille Boyer},

title = {Reversible-deactivation radical polymerization (Controlled/living radical polymerization): From discovery to materials design and applications},

journal = {Progress in Polymer Science},

year = {2020},

volume = {111},

publisher = {Elsevier},

month = {dec},

url = {https://doi.org/10.1016/j.progpolymsci.2020.101311},

pages = {101311},

doi = {10.1016/j.progpolymsci.2020.101311}

}

Publisher

Elsevier

Journal

Progress in Polymer Science

scimago Q1

wos Q1

SJR

6.089

CiteScore

49.8

Impact factor

26.1

ISSN

00796700 (Print)

18731619