Degradable Alternating Copolymers by Radical Copolymerization of 2‑Methylen-1,3-dioxepane and Crotonate Esters

Producing backbone degradable copolymers via free-radical copolymerization is a promising, yet challenging method to develop more sustainable materials for many applications. In this work, we present the copolymerization of 2-methylen-1,3-dioxepane (MDO) with crotonic acid derivative esters. MDO can...

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Veröffentlicht in:	ACS macro letters 2024-03, Vol.13 (3), p.368-374
Hauptverfasser:	Barquero, Aitor, Zanoni, Arianna, Gabirondo, Elena, González de San Román, Estibaliz, Hamzehlou, Shaghayegh, Ximenis, Marta, Moscatelli, Davide, Sardon, Haritz, Leiza, Jose Ramon
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creator	Barquero, Aitor Zanoni, Arianna Gabirondo, Elena González de San Román, Estibaliz Hamzehlou, Shaghayegh Ximenis, Marta Moscatelli, Davide Sardon, Haritz Leiza, Jose Ramon
description	Producing backbone degradable copolymers via free-radical copolymerization is a promising, yet challenging method to develop more sustainable materials for many applications. In this work, we present the copolymerization of 2-methylen-1,3-dioxepane (MDO) with crotonic acid derivative esters. MDO can copolymerize by radical ring-opening polymerization incorporating degradable ester moieties in the polymer backbone, although this can often be difficult due to the very unfavorable reactivity ratios. Crotonic acid derivatives, on the other hand, can be easily produced completely from biomass but are typically very difficult to (co)polymerize due to low propagation rates and very unfavorable reactivity ratios. Herein, we present the surprisingly easy copolymerization between MDO and butyl crotonate (BCr), which shows the ability to form alternating copolymers. The alternating nature of the copolymer was characterized by MALDI-TOF and supported by the reactivity ratios calculated experimentally (r MDO = 0.105 and r BCr = 0.017). The alternating nature of the copolymers favored the degradability that could be achieved under basic conditions (in 2 h, all chains have molar masses smaller than 2 kg/mol). Last, the work was expanded to other crotonate monomers to expand the portfolio and show the potential of this copolymer family.
doi_str_mv	10.1021/acsmacrolett.4c00101
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The alternating nature of the copolymers favored the degradability that could be achieved under basic conditions (in 2 h, all chains have molar masses smaller than 2 kg/mol). Last, the work was expanded to other crotonate monomers to expand the portfolio and show the potential of this copolymer family.</description><identifier>ISSN: 2161-1653</identifier><identifier>EISSN: 2161-1653</identifier><identifier>DOI: 10.1021/acsmacrolett.4c00101</identifier><identifier>PMID: 38457274</identifier><language>eng</language><publisher>United States: American Chemical Society</publisher><subject>Letter</subject><ispartof>ACS macro letters, 2024-03, Vol.13 (3), p.368-374</ispartof><rights>2024 The Authors. Published by American Chemical Society</rights><rights>2024 The Authors. 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In this work, we present the copolymerization of 2-methylen-1,3-dioxepane (MDO) with crotonic acid derivative esters. MDO can copolymerize by radical ring-opening polymerization incorporating degradable ester moieties in the polymer backbone, although this can often be difficult due to the very unfavorable reactivity ratios. Crotonic acid derivatives, on the other hand, can be easily produced completely from biomass but are typically very difficult to (co)polymerize due to low propagation rates and very unfavorable reactivity ratios. Herein, we present the surprisingly easy copolymerization between MDO and butyl crotonate (BCr), which shows the ability to form alternating copolymers. The alternating nature of the copolymer was characterized by MALDI-TOF and supported by the reactivity ratios calculated experimentally (r MDO = 0.105 and r BCr = 0.017). The alternating nature of the copolymers favored the degradability that could be achieved under basic conditions (in 2 h, all chains have molar masses smaller than 2 kg/mol). 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title	Degradable Alternating Copolymers by Radical Copolymerization of 2‑Methylen-1,3-dioxepane and Crotonate Esters
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