Castor Oil-Based Polymer Films with Superior Mechanical, Thermal, and Optical Properties

材料科学 马来酸酐 聚合物 化学工程 蓖麻油 聚合 极限抗拉强度 嫁接 玻璃化转变 热稳定性 溶剂 复合材料 絮凝作用 苯乙烯 聚丙烯酰胺 高分子化学 共聚物 降水 混合材料 纤维 形状记忆合金* 光致发光 抗撕裂性 天然橡胶 弹性体
作者
Guangju. Qiu,Tong Wang,Maojiang Yue,Bingzheng Jiang,Li Wang,Wantai Yang
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
标识
DOI:10.1021/acsami.5c18545
摘要

In pursuit of global sustainability goals, there is a growing need for high-performance biobased polymer films. Herein, plant-derived castor oil (CO)-based cross-linked films were prepared following a three-step strategy: (1) the self-stabilized precipitation polymerization of styrene and maleic anhydride to prepare poly(styrene-alt-maleic anhydride) (SMA); (2) the esterification reaction of SMA and CO to prepare CO-grafted SMA (SMA-g-CO); and (3) the preparation of SMA-g-CO/poly(ethylene glycol) (PEG) films through solution-blending, casting, and heat-induced curing. By varying the molecular weights of SMA and PEG, the grafting amount of CO, and the feed ratio of SMA-g-CO to PEG, a series of CO-based films were successfully prepared, with the highest biomass content reaching up to 63.4 wt %. The microstructure, mechanical properties, thermal properties, optical performance, toxicity, and solvent resistance of the films were investigated systematically. SMA-g-CO/PEG films possessed excellent tensile strength (up to 70 MPa), good mechanical performance retention after reprocessing, and a high glass transition temperature (up to 184.2 °C). The films also demonstrated intriguing and stable photoluminescence behavior, contributing to outstanding UV-shielding and visible light-transmitting properties. Thus, the present work enables the effective conversion of renewable CO into high-performance SMA-g-CO/PEG films with great application potential in constructing a circular economy.
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