Eco-Friendly Room-Temperature Polymerization in Emulsions and Beyond

IF 11.1 2区化学 Q1 POLYMER SCIENCE

Polymer Reviews Pub Date : 2023-02-10 DOI:10.1080/15583724.2023.2176514

Tan Zhang, Gu Xu, F. Blum

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引用次数: 3

Abstract

Abstract This review highlights the effectiveness and robust nature of eco-friendly room-temperature polymerization initiated in emulsions, and some of its applications in polymer and materials science. The polymerization in emulsions initiated through a thermal or redox approach can be safely conducted under ambient conditions without using other hazardous chemicals. Thermal initiators decompose efficiently at the surfactant-stabilized oil–water interfaces at room temperature. The interface-induced initiation is found to be somewhat independent of surfactant type, insensitive to oxygen, and works for several thermal initiators. Redox initiators without transition metal compounds also effectively initiate room-temperature polymerization in emulsions. With the assistance of room temperature initiation, the polymers synthesized at room temperature are of high molecular mass. In addition, room-temperature polymerization allows temperature-sensitive molecules, for example, proteins and enzymes, to be incorporated with the polymers in situ. The applications of room-temperature polymerization in high internal phase emulsions and biomedicine are also discussed. The initiation of radicals from oil–water interfaces or transition metal-free redox systems is a promising eco-friendly method to promote radical reactions at room temperature. Graphic Abstract

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乳液及其他环境友好型室温聚合

摘要本文综述了乳液室温环境友好聚合的有效性和健壮性，以及它在聚合物和材料科学中的一些应用。通过热或氧化还原方法引发的乳液聚合可以在环境条件下安全进行，而不使用其他危险化学品。室温下，热引发剂在表面活性剂稳定的油水界面处分解效率高。发现界面诱导引发与表面活性剂类型无关，对氧不敏感，并且适用于几种热引发剂。不含过渡金属化合物的氧化还原引发剂也能有效地引发乳液中的室温聚合。在室温引发的辅助下，室温合成的聚合物具有较高的分子质量。此外，室温聚合允许对温度敏感的分子，例如蛋白质和酶，在原位与聚合物结合。讨论了室温聚合在高内相乳剂和生物医药中的应用。从油水界面或过渡金属氧化还原体系中引发自由基是一种在室温下促进自由基反应的有前途的环保方法。图形抽象

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来源期刊

Polymer Reviews 工程技术-高分子科学

CiteScore

24.80

自引率

0.80%

发文量

审稿时长

6 months

期刊介绍： Polymer Reviews is a reputable publication that focuses on timely issues within the field of macromolecular science and engineering. The journal features high-quality reviews that have been specifically curated by experts in the field. Topics of particular importance include biomedical applications, organic electronics and photonics, nanostructures, micro- and nano-fabrication, biological molecules (such as DNA, proteins, and carbohydrates), polymers for renewable energy and environmental applications, and interdisciplinary intersections involving polymers. The articles in Polymer Reviews fall into two main categories. Some articles offer comprehensive and expansive overviews of a particular subject, while others zero in on the author's own research and situate it within the broader scientific landscape. In both types of articles, the aim is to provide readers with valuable insights and advancements in the field of macromolecular science and engineering.