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柠檬烯氨基甲酸酯的配位开环聚合制备无光气和异氰酸酯的聚氨酯

Coordinative Ring-Opening Polymerization of Limonene Carbamate Toward Phosgene- and Isocyanate-Free Polyurethane.

作者信息

Futter Jonas, Richter Leon F, Hörl Stefanie, Kränzlein Moritz, Rieger Bernhard

机构信息

Wacker-Lehrstuhl für Makromolekulare Chemie, Catalysis Research Center, TUM School of Natural Sciences, Technische Universität München, Lichtenbergstraße 4, 85748, Garching, Garching bei München, Germany.

Molecular Catalysis, Catalysis Research Center, TUM School of Natural Sciences, Technische Universität München, Lichtenbergstraße 4, 85748, Garching, Garching bei München, Germany.

出版信息

Angew Chem Int Ed Engl. 2025 Aug 11;64(33):e202502727. doi: 10.1002/anie.202502727. Epub 2025 Jul 23.

DOI:10.1002/anie.202502727
PMID:40274544
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12338414/
Abstract

This study presents a phosgene- and isocyanate-free route for the synthesis of polyurethanes using (R)-limonene as a bio-based starting material. The synthesis of the cyclic limonene-based carbamate monomer LU is achieved in high yields using dimethyl carbonate as a sustainable, less hazardous phosgene surrogate and is verified by NMR, SC-XRD, ESI-MS, GC-MS, and elemental analysis. Polymerizations were carried out by coordinative ring-opening polymerization. Sn(Oct) showed the best catalytic performance, achieving up to 93% conversion with molecular weights up to 16.0 kg mol at a polydispersity of 1.5. Detailed mechanistic insights were obtained by kinetic studies, end group determination via ESI-MS and stoichiometric ninhydrin experiments, N-H methylation of LU, kinetic isotope experiments, and Sn NMR measurements. The resulting semi-crystalline polyurethane exhibits promising thermal properties, including a decomposition temperature of 252 °C and a glass transition temperature above 150 °C. Depolymerization in solution was achieved in high yield using the same catalyst. This work describes a coordinative ring-opening polymerization approach using a terpene-based carbamate as monomer, an important step toward bio-based polyurethanes.

摘要

本研究提出了一种以(R)-柠檬烯为生物基起始原料合成聚氨酯的无光气和异氰酸酯路线。以碳酸二甲酯作为一种可持续、危害较小的光气替代物,高产率地实现了基于柠檬烯的环状氨基甲酸酯单体LU的合成,并通过核磁共振(NMR)、单晶X射线衍射(SC-XRD)、电喷雾电离质谱(ESI-MS)、气相色谱-质谱联用(GC-MS)和元素分析进行了验证。通过配位开环聚合进行聚合反应。二丁基二月桂酸锡(Sn(Oct))表现出最佳的催化性能,在多分散指数为1.5时,转化率高达93%,分子量高达至16.0 kg/mol。通过动力学研究、利用ESI-MS和化学计量茚三酮实验进行端基测定、LU的N-H甲基化、动力学同位素实验以及锡核磁共振(Sn NMR)测量,获得了详细的机理见解。所得的半结晶聚氨酯表现出良好的热性能,包括252℃的分解温度和高于150℃的玻璃化转变温度。使用相同的催化剂在溶液中实现了高产率的解聚。这项工作描述了一种使用基于萜烯的氨基甲酸酯作为单体的配位开环聚合方法,这是迈向生物基聚氨酯的重要一步。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9368/12338414/ab82ba0c0234/ANIE-64-e202502727-g008.jpg
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