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      Development and Experimental Validation of a Dispersity Model for In Silico RAFT Polymerization

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          Abstract

          The exploitation of computational techniques to predict the outcome of chemical reactions is becoming commonplace, enabling a reduction in the number of physical experiments required to optimize a reaction. Here, we adapt and combine models for polymerization kinetics and molar mass dispersity as a function of conversion for reversible addition fragmentation chain transfer (RAFT) solution polymerization, including the introduction of a novel expression accounting for termination. A flow reactor operating under isothermal conditions was used to experimentally validate the models for the RAFT polymerization of dimethyl acrylamide with an additional term to accommodate the effect of residence time distribution. Further validation is conducted in a batch reactor, where a previously recorded in situ temperature monitoring provides the ability to model the system under more representative batch conditions, accounting for slow heat transfer and the observed exotherm. The model also shows agreement with several literature examples of the RAFT polymerization of acrylamide and acrylate monomers in batch reactors. In principle, the model not only provides a tool for polymer chemists to estimate ideal conditions for a polymerization, but it can also automatically define the initial parameter space for exploration by computationally controlled reactor platforms provided a reliable estimation of rate constants is available. The model is compiled into an easily accessible application to enable simulation of RAFT polymerization of several monomers.

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          Controlled/living radical polymerization: Features, developments, and perspectives

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            50th Anniversary Perspective: RAFT Polymerization—A User Guide

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              Living Free-Radical Polymerization by Reversible Addition−Fragmentation Chain Transfer:  The RAFT Process

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                Author and article information

                Journal
                Macromolecules
                Macromolecules
                ma
                mamobx
                Macromolecules
                American Chemical Society
                0024-9297
                1520-5835
                09 February 2023
                28 February 2023
                : 56
                : 4
                : 1581-1591
                Affiliations
                []School of Chemical and Process Engineering, University of Leeds , LS2 9JT Leeds, U.K.
                []Institute of Process Research and Development, School of Chemistry, University of Leeds , LS2 9JT Leeds, U.K.
                Author notes
                Author information
                https://orcid.org/0000-0002-2441-9741
                https://orcid.org/0000-0001-5276-0085
                https://orcid.org/0000-0001-7107-6297
                https://orcid.org/0000-0002-8298-1417
                Article
                10.1021/acs.macromol.2c01798
                9979647
                36874531
                c83ab4e3-637a-4036-acf9-5fbbae65e136
                © 2023 The Authors. Published by American Chemical Society

                Permits the broadest form of re-use including for commercial purposes, provided that author attribution and integrity are maintained ( https://creativecommons.org/licenses/by/4.0/).

                History
                : 30 August 2022
                : 20 January 2023
                Funding
                Funded by: Engineering and Physical Sciences Research Council, doi 10.13039/501100000266;
                Award ID: EP/R032807/1
                Funded by: University of Leeds, doi 10.13039/501100000777;
                Award ID: NA
                Funded by: Royal Academy of Engineering, doi 10.13039/501100000287;
                Award ID: NA
                Funded by: Engineering and Physical Sciences Research Council, doi 10.13039/501100000266;
                Award ID: EP/V055089/1
                Funded by: Engineering and Physical Sciences Research Council, doi 10.13039/501100000266;
                Award ID: EP/S000380/1
                Categories
                Article
                Custom metadata
                ma2c01798
                ma2c01798

                Polymer chemistry
                Polymer chemistry

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