热固性聚合物闭环解聚直接回收单体

IF 5.1 Q1 POLYMER SCIENCE

ACS Macro Letters Pub Date : 2024-12-07 DOI:10.1021/acsmacrolett.4c00665

Chihui Zheng, Gadi Slor, Youwei Ma, Francesco Stellacci

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引用次数: 0

摘要

从热固性解聚中回收单体是一个重大的挑战，如果一个人设定了直接进行的目标，即不需要复杂的化学分离步骤，这将变得更加艰巨。为此，我们首先将环烷基碳酸酯（ACCs）与少量烯丙氧基环碳酸酯（AoCCs）共聚，然后在紫外线照射下将烯丙氧基聚碳酸酯与过量的四硫醇化合物交联，合成了一种新型聚碳酸酯热固性材料。与线性类似物相比，这些交联聚碳酸酯表现出更高的热性能和机械性能，同时保持了线性聚合物闭合环解聚的能力。解聚过程可以直接回收ACC及其二聚体，绕过复杂的化学分离步骤，这些步骤通常用于传统化学可回收热固性塑料的回收。产率从74.7%到91.7%不等，这取决于热固性材料中AoCC与ACC的比例。此外，回收的化合物可以与AoCCs再聚合，得到与最初合成的聚碳酸酯质量相同的聚碳酸酯。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Direct Monomer Recovery from Ring-Closing Depolymerization of Thermosets

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Direct Monomer Recovery from Ring-Closing Depolymerization of Thermosets

Recovering monomers from the depolymerization of thermosets presents a significant challenge, which becomes even more daunting if one sets the goal of doing it directly, i.e., without complex chemical separation steps. To this end, we have synthesized a new type of polycarbonate thermoset by first copolymerizing alkyl cyclic carbonates (ACCs) with small amounts of allyloxy cyclic carbonates (AoCCs), followed by cross-linking the resulting allyloxy polycarbonate with excess tetrathiol compounds under UV irradiation. These cross-linked polycarbonates demonstrate enhanced thermal and mechanical properties compared to their linear analogues, while maintaining the linear polymers’ capacity for ring-closing depolymerization. The depolymerization process enables the direct recovery of ACC and its dimer, bypassing complex chemical separation steps that are commonly employed in the recycling of conventional chemically recyclable thermosets. The yields range from 74.7% to 91.7% depending on the ratios of AoCC to ACC in the thermosets. Furthermore, the recovered compounds can be repolymerized with AoCCs leading to polycarbonate of the same quality to the initially synthesized one.

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来源期刊

ACS Macro Letters 化学-

CiteScore

10.40

自引率

3.40%

发文量

209

审稿时长

1 months

期刊介绍： ACS Macro Letters publishes research in all areas of contemporary soft matter science in which macromolecules play a key role, including nanotechnology, self-assembly, supramolecular chemistry, biomaterials, energy generation and storage, and renewable/sustainable materials. Submissions to ACS Macro Letters should justify clearly the rapid disclosure of the key elements of the study. The scope of the journal includes high-impact research of broad interest in all areas of polymer science and engineering, including cross-disciplinary research that interfaces with polymer science. With the launch of ACS Macro Letters, all Communications that were formerly published in Macromolecules and Biomacromolecules will be published as Letters in ACS Macro Letters.