可再生聚半萜二醇制备聚氨酯热塑性塑料和热固性塑料的合成、性能和转化活性

IF 5.2 1区化学 Q1 POLYMER SCIENCE

Macromolecules Pub Date : 2025-08-01 DOI:10.1021/acs.macromol.4c02436

Carli B. Kovel, Hannah Perine, Paul J. Chirik and Megan Mohadjer Beromi*,

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引用次数: 0

摘要

聚氨酯（pu）是第六大最常用的塑料类别，但约80%的商品材料在使用寿命结束时被填埋或焚烧。处置热固性材料尤其成问题，因为交联阻止了处置材料的再利用。因此，有相当大的兴趣发展的pu源自廉价的原料，可以固有的化学解构。天然存在的倍半萜β-石蜡烯在二羟基链终止物存在下的开环复分解聚合（ROMP）得到了多元醇端羟基聚石蜡烯（HTPCR）。通过与多异氰酸酯反应将HTPCR掺入pu中，产生的聚合物具有与商品材料相当的热学和流变性能。热塑性和热固性材料的化学降解的可行性也证明了通过钌介导的转化，利用重复石竹烯单体单元内的转化活性烯烃。总的来说，这项工作突出了生物可再生、化学可再加工的聚半萜在聚氨酯领域的价值。

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Synthesis, Properties, and Metathesis Activity of Polyurethane Thermoplastics and Thermosets from a Renewable Polysesquiterpene Diol

Polyurethanes (PUs) are the sixth most commonly utilized plastic class, yet ∼80% of commodity material is landfilled or incinerated at the end of life. Disposal of thermosets is particularly problematic as cross-linking prevents the repurposing of disposed material. Thus, there is considerable interest in the development of PUs derived from inexpensive feedstocks that can be inherently chemically deconstructed. Ring opening metathesis polymerization (ROMP) of the naturally occurring sesquiterpene β-caryophyllene in the presence of dihydroxy chain terminators afforded the polyol hydroxy-terminated polycaryophyllene (HTPCR). Incorporation of HTPCR into PUs through reaction with polyisocyanates produced polymers with thermal and rheological properties comparable to commodity materials. The feasibility of chemical degradation of both thermoplastic and thermoset materials was also demonstrated through ruthenium-mediated metathesis, utilizing the metathesis-active olefins within the repeat caryophyllene monomer unit. Overall, this work highlights the value of biorenewable, chemically reprocessable polysesquiterpenes in the PU space.

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来源期刊

Macromolecules 工程技术-高分子科学

CiteScore

9.30

自引率

16.40%

发文量

942

审稿时长

2 months

期刊介绍： Macromolecules publishes original, fundamental, and impactful research on all aspects of polymer science. Topics of interest include synthesis (e.g., controlled polymerizations, polymerization catalysis, post polymerization modification, new monomer structures and polymer architectures, and polymerization mechanisms/kinetics analysis); phase behavior, thermodynamics, dynamic, and ordering/disordering phenomena (e.g., self-assembly, gelation, crystallization, solution/melt/solid-state characteristics); structure and properties (e.g., mechanical and rheological properties, surface/interfacial characteristics, electronic and transport properties); new state of the art characterization (e.g., spectroscopy, scattering, microscopy, rheology), simulation (e.g., Monte Carlo, molecular dynamics, multi-scale/coarse-grained modeling), and theoretical methods. Renewable/sustainable polymers, polymer networks, responsive polymers, electro-, magneto- and opto-active macromolecules, inorganic polymers, charge-transporting polymers (ion-containing, semiconducting, and conducting), nanostructured polymers, and polymer composites are also of interest. Typical papers published in Macromolecules showcase important and innovative concepts, experimental methods/observations, and theoretical/computational approaches that demonstrate a fundamental advance in the understanding of polymers.