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Liquid Metal Initiator of Ring‐Opening Polymerization: Self‐Capsulation into Thermal/Photomoldable Powder for Multifunctional Composites

材料科学 聚合 热的 金属 开环聚合 复合材料 聚合物 戒指(化学) 高分子化学 有机化学 冶金 化学 物理 气象学
作者
Xiankai Li,Mingjie Li,Qinghui Shou,Li Zhou,Anle Ge,Danfeng Pei,Chaoxu Li
出处
期刊:Advanced Materials [Wiley]
卷期号:32 (43): e2003553-e2003553 被引量:79
标识
DOI:10.1002/adma.202003553
摘要

Abstract Liquid metal nanodroplets not only share similar metallic properties and nanoscale effect with solid metal nanoparticles, but also possess the additional uniqueness in nonvolatile fluidity and ambient sintering ability into continuous conductors. In most cases, liquid metal nanodroplets are encapsulated into ultrathin and fragile shells of oxides and amphiphile monolayers, and may be hindered from incorporating homogeneously into various composites through conventional processing methods. In this study, ring‐opening polymerization is found to be initiated by sonicating the liquid metal EGaIn in fluidic lactones. By this in situ polymerization, EGaIn nanodroplets are encapsulated into polylactone shells with tunable thickness, which can further be dried into a solid powder. Besides high chemical stability and dispersibility in organic solvents, the powder of the EGaIn capsules combines the exceptional properties of the EGaIn droplets (e.g., photothermal effect) and the polylactone shells (e.g., biocompatibility, biodegradability, and compatibility with different polymer matrixes), being capable of being introduced into thermoplastic composites through liquid casting and thermal‐ or photomolding for the notch‐insensitive tearing property, sintering‐induced electric conductivity, and photothermal effect. Thus, the EGaIn initiator of ring‐opening polymerization may start a pathway to produce stable andthermal/photomoldable powders of EGaIn capsules and their multifunctionalcomposites, applicable in biomedicines, soft electronics, and smart robots.
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