Facile Solid-State Mechanochemical Synthesis of Eco-Friendly Thermoplastic Polyurethanes and Copolymers Using a Biomass-Derived Furan Diol

Changsuk Oh; Eun Ho Choi; Eun Jung Choi; Thathan Premkumar; Changsik Song

doi:10.1021/acssuschemeng.9b06944

Facile Solid-State Mechanochemical Synthesis of Eco-Friendly Thermoplastic Polyurethanes and Copolymers Using a Biomass-Derived Furan Diol

Changsuk Oh, Eun Ho Choi, Eun Jung Choi, Thathan Premkumar, Changsik Song

Sungkyunkwan University

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

55 Scopus citations

Abstract

Herein, we report a facile, one-pot, green, and solvent-less (solid-state) mechanochemical approach toward the synthesis of eco-friendly polyurethanes (PUs) at room temperature using biomass-derived 2,5-bis(hydroxymethyl)furan (BHMF) combined with vibration milling. This approach is simple, straightforward, and very fast even at room temperature because of the instantaneous energy generated during grinding. BHMF, a biomass-derived monomer, was successfully used to synthesize PUs via ball milling; the resulting PUs have a maximal M_w of 163k and are flexible (T_g = 96 °C) and thermally stable (T_d = 197 °C). In addition, ball milling enabled the synthesis of PU copolymers with various diols and diamines, resulting in variation of the polymer properties, such as the glass transition temperature (T_g).

Original language	English
Pages (from-to)	4400-4406
Number of pages	7
Journal	ACS Sustainable Chemistry and Engineering
Volume	8
Issue number	11
DOIs	https://doi.org/10.1021/acssuschemeng.9b06944
State	Published - 23 Mar 2020

Keywords

ball-milling
biomass
eco-friendly
polyurethane
polyurethane copolymer

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10.1021/acssuschemeng.9b06944

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title = "Facile Solid-State Mechanochemical Synthesis of Eco-Friendly Thermoplastic Polyurethanes and Copolymers Using a Biomass-Derived Furan Diol",

abstract = "Herein, we report a facile, one-pot, green, and solvent-less (solid-state) mechanochemical approach toward the synthesis of eco-friendly polyurethanes (PUs) at room temperature using biomass-derived 2,5-bis(hydroxymethyl)furan (BHMF) combined with vibration milling. This approach is simple, straightforward, and very fast even at room temperature because of the instantaneous energy generated during grinding. BHMF, a biomass-derived monomer, was successfully used to synthesize PUs via ball milling; the resulting PUs have a maximal Mw of 163k and are flexible (Tg = 96 °C) and thermally stable (Td = 197 °C). In addition, ball milling enabled the synthesis of PU copolymers with various diols and diamines, resulting in variation of the polymer properties, such as the glass transition temperature (Tg).",

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AU - Oh, Changsuk

AU - Choi, Eun Ho

AU - Choi, Eun Jung

AU - Premkumar, Thathan

AU - Song, Changsik

PY - 2020/3/23

Y1 - 2020/3/23

N2 - Herein, we report a facile, one-pot, green, and solvent-less (solid-state) mechanochemical approach toward the synthesis of eco-friendly polyurethanes (PUs) at room temperature using biomass-derived 2,5-bis(hydroxymethyl)furan (BHMF) combined with vibration milling. This approach is simple, straightforward, and very fast even at room temperature because of the instantaneous energy generated during grinding. BHMF, a biomass-derived monomer, was successfully used to synthesize PUs via ball milling; the resulting PUs have a maximal Mw of 163k and are flexible (Tg = 96 °C) and thermally stable (Td = 197 °C). In addition, ball milling enabled the synthesis of PU copolymers with various diols and diamines, resulting in variation of the polymer properties, such as the glass transition temperature (Tg).

AB - Herein, we report a facile, one-pot, green, and solvent-less (solid-state) mechanochemical approach toward the synthesis of eco-friendly polyurethanes (PUs) at room temperature using biomass-derived 2,5-bis(hydroxymethyl)furan (BHMF) combined with vibration milling. This approach is simple, straightforward, and very fast even at room temperature because of the instantaneous energy generated during grinding. BHMF, a biomass-derived monomer, was successfully used to synthesize PUs via ball milling; the resulting PUs have a maximal Mw of 163k and are flexible (Tg = 96 °C) and thermally stable (Td = 197 °C). In addition, ball milling enabled the synthesis of PU copolymers with various diols and diamines, resulting in variation of the polymer properties, such as the glass transition temperature (Tg).

KW - ball-milling

KW - biomass

KW - eco-friendly

KW - polyurethane

KW - polyurethane copolymer

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IS - 11

ER -

Facile Solid-State Mechanochemical Synthesis of Eco-Friendly Thermoplastic Polyurethanes and Copolymers Using a Biomass-Derived Furan Diol

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Keywords

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