Partially Biobased Block Copolymers Derived from Phenol and Butanol for High-Performance Elastomers and Pressure-Sensitive Adhesives

Upcycling renewable resources into value-added products has shown substantial promise for producing sustainable polymers and reducing environmental pollution. To achieve this, careful and cost-effective selections of monomers derived from bioresources are critical. We herein report ABA-type triblock...

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Veröffentlicht in:	ACS applied polymer materials 2023-10, Vol.5 (10), p.7805-7812
Hauptverfasser:	Kim, Soyeon, Koo, Byungjin
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creator	Kim, Soyeon Koo, Byungjin
description	Upcycling renewable resources into value-added products has shown substantial promise for producing sustainable polymers and reducing environmental pollution. To achieve this, careful and cost-effective selections of monomers derived from bioresources are critical. We herein report ABA-type triblock copolymers that partly contain phenyl acrylate and n-butyl acrylate, which could be derived from natural resources, such as lignin (for phenol) and microorganisms (for n-butanol). A hard block (“A” block) is first formed using phenyl acrylate and styrene with a bifunctional reversible addition–fragmentation chain-transfer agent, followed by the incorporation of n-butyl acrylate to form a soft block (“B” block) in the middle. The biomass contents are calculated to range from 32 to 53%. By simply altering the feeding ratios of these monomers, we have developed materials that exhibit excellent properties, ranging from elastomers to pressure-sensitive adhesives (PSAs). For example, one of the synthesized polymers indicates a Young’s modulus of 106 MPa and a toughness of 15 MJ/m3, outperforming those obtained from commercial petrochemical-based elastomers. Additionally, some of the copolymers exhibited PSA properties that surpass those of commercial packaging tapes and glue sticks on a certain substrate. The Dahlquist criteria and viscoelastic window indicate great promise for these biobased polymers as PSAs.
doi_str_mv	10.1021/acsapm.3c01053
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To achieve this, careful and cost-effective selections of monomers derived from bioresources are critical. We herein report ABA-type triblock copolymers that partly contain phenyl acrylate and n-butyl acrylate, which could be derived from natural resources, such as lignin (for phenol) and microorganisms (for n-butanol). A hard block (“A” block) is first formed using phenyl acrylate and styrene with a bifunctional reversible addition–fragmentation chain-transfer agent, followed by the incorporation of n-butyl acrylate to form a soft block (“B” block) in the middle. The biomass contents are calculated to range from 32 to 53%. By simply altering the feeding ratios of these monomers, we have developed materials that exhibit excellent properties, ranging from elastomers to pressure-sensitive adhesives (PSAs). 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Polym. Mater</addtitle><description>Upcycling renewable resources into value-added products has shown substantial promise for producing sustainable polymers and reducing environmental pollution. To achieve this, careful and cost-effective selections of monomers derived from bioresources are critical. We herein report ABA-type triblock copolymers that partly contain phenyl acrylate and n-butyl acrylate, which could be derived from natural resources, such as lignin (for phenol) and microorganisms (for n-butanol). A hard block (“A” block) is first formed using phenyl acrylate and styrene with a bifunctional reversible addition–fragmentation chain-transfer agent, followed by the incorporation of n-butyl acrylate to form a soft block (“B” block) in the middle. The biomass contents are calculated to range from 32 to 53%. 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The biomass contents are calculated to range from 32 to 53%. By simply altering the feeding ratios of these monomers, we have developed materials that exhibit excellent properties, ranging from elastomers to pressure-sensitive adhesives (PSAs). For example, one of the synthesized polymers indicates a Young’s modulus of 106 MPa and a toughness of 15 MJ/m3, outperforming those obtained from commercial petrochemical-based elastomers. Additionally, some of the copolymers exhibited PSA properties that surpass those of commercial packaging tapes and glue sticks on a certain substrate. The Dahlquist criteria and viscoelastic window indicate great promise for these biobased polymers as PSAs.</abstract><pub>American Chemical Society</pub><doi>10.1021/acsapm.3c01053</doi><tpages>8</tpages><orcidid>https://orcid.org/0000-0003-0681-8084</orcidid></addata></record>
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title	Partially Biobased Block Copolymers Derived from Phenol and Butanol for High-Performance Elastomers and Pressure-Sensitive Adhesives
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