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The Promising Future of Fluoropolymers
Macromolecular Chemistry and Physics ( IF 2.5 ) Pub Date : 2020-03-26 , DOI: 10.1002/macp.201900573 Bruno Améduri 1
Macromolecular Chemistry and Physics ( IF 2.5 ) Pub Date : 2020-03-26 , DOI: 10.1002/macp.201900573 Bruno Améduri 1
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This article aims at showing the usefulness of fluoropolymers (FPs), supplying an overview of their synthesis, applications, and recycling. FPs are currently prepared by conventional radical polymerization of fluoromonomers. These specialty polymers, produced in low tonnage compared to that of commodity ones, display outstanding properties, such as chemical, oxidative, and thermal resistances, low refractive index, dissipation factor, permittivity, and water absorptivity, and excellent weatherability and durability. More recent routes for their preparations are suggested, controlled or not, leading to random, alternated, block, graft, dendrimers, or multiarm copolymers, as well as their applications ranging from coatings to high performance (thermoplastic) elastomers, energy related‐materials (e.g., fuel cell membranes, components for lithium‐ion batteries, electroactive devices, and photovoltaics) to original and surfactants, optical devices, organic electronics, composites, and shape memory polymers.
中文翻译:
含氟聚合物的光明前景
本文旨在展示含氟聚合物(FPs)的有用性,并概述其合成,应用和回收利用。目前,FP是通过常规的含氟单体自由基聚合制备的。这些特种聚合物与商品相比具有较低的吨位,具有出色的性能,如化学,氧化和耐热性,低折射率,耗散因数,介电常数和吸水性,以及出色的耐候性和耐久性。建议或不控制使用它们的最新制备方法,这会导致形成无规,交替,嵌段,接枝,树状聚合物或多臂共聚物,其应用范围从涂料到高性能(热塑性)弹性体,能源相关材料(例如燃料电池膜
更新日期:2020-03-26
中文翻译:
含氟聚合物的光明前景
本文旨在展示含氟聚合物(FPs)的有用性,并概述其合成,应用和回收利用。目前,FP是通过常规的含氟单体自由基聚合制备的。这些特种聚合物与商品相比具有较低的吨位,具有出色的性能,如化学,氧化和耐热性,低折射率,耗散因数,介电常数和吸水性,以及出色的耐候性和耐久性。建议或不控制使用它们的最新制备方法,这会导致形成无规,交替,嵌段,接枝,树状聚合物或多臂共聚物,其应用范围从涂料到高性能(热塑性)弹性体,能源相关材料(例如燃料电池膜
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