热稳定性
单体
酰亚胺
聚合物
水解
聚酯纤维
玻璃化转变
材料科学
化学工程
机械强度
有机化学
高分子化学
化学稳定性
化学改性
缩聚物
化学结构
动态力学分析
化学
反应条件
水解降解
共聚物
原材料
热的
化学反应
作者
Yuxiang Fu,Jialong Li,Yuji Dong,Caicai Lu,Hongsen Liu,Yuanyuan Liu,Haiyue Zhao,Xinyu Meng,Chengcai Pang
出处
期刊:Macromolecules
[American Chemical Society]
日期:2025-11-21
卷期号:58 (23): 12776-12786
标识
DOI:10.1021/acs.macromol.5c01634
摘要
The biorenewable and high-performance polymers with recyclability are highly desired to establish a sustainable society. In this study, a biobased biimide diester (BD) was readily synthesized by the solvent-free imidization reaction between 1,2,3,4-butanetetracarboxylic acid (BTCA) and glycine, followed by esterification. Starting from BD and various diols, a series of polyimide-esters were successfully prepared by melt-polycondensation. The obtained polyimide-esters exhibited tunable glass transition temperatures ( T g ) up to 136 °C and outstanding mechanical properties, thanks to the polar interactions between the imide rings in the BD units. Benefiting from the neighboring group participation effect and the high free volume imposed by BD units, dual closed-loop recycling was achieved: mechanical recycling without obvious compromise of thermal and mechanical properties after four cycles or chemical recycling by catalyst-free hydrolysis or methanolysis to the initial monomers in high yields. In addition, they demonstrated excellent storage stability in terms of retained chemical structures, intrinsic viscosity, and mechanical properties. This ground-up design of material synthesis opens avenues toward high- T g and mechanically robust polyesters with dual recyclability, which are advantageous for the sustainable development of a circular economy.
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