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迈向预测整体不对称等孔双嵌段共聚物膜的形成

Toward Predicting the Formation of Integral-Asymmetric, Isoporous Diblock Copolymer Membranes.

作者信息

Blagojevic Niklas, Das Shibananda, Xie Jiayu, Dreyer Oliver, Radjabian Maryam, Held Martin, Abetz Volker, Müller Marcus

机构信息

Institute for Theoretical Physics, Georg August University Göttingen, Friedrich-Hund-Platz 1, 37077, Göttingen, Germany.

Institute of Membrane Research, Helmholtz-Zentrum Hereon, Max-Planck-Straße 1, 21502, Geesthacht, Germany.

出版信息

Adv Mater. 2024 Oct;36(40):e2404560. doi: 10.1002/adma.202404560. Epub 2024 Aug 29.

Abstract

The self-assembly and nonsolvent-induced phase separation (SNIPS) process of block copolymers and solvents enables the fabrication of integral-asymmetric, isoporous membranes. An isoporous top layer is formed by evaporation-induced self-assembly (EISA) and imparts selectivity for ultrafiltration of functional macromolecules or water purification. This selective layer is supported by a macroporous bottom structure that is formed by nonsolvent-induced phase separation (NIPS) providing mechanical stability. Thereby the permeability/selectivity tradeoff is optimized. The SNIPS fabrication involves various physical phenomena-e.g., evaporation, self-assembly, macrophase separation, vitrification - and multiple structural, thermodynamic, kinetic, and process parameters. Optimizing membrane properties and rationally designing fabrication processes is a challenge which particle simulation can significantly contribute to. Using large-scale particle simulations, it is observed that 1) a small incompatibility between matrix-forming block of the copolymer and nonsolvent, 2) a glassy arrest that occurs at a smaller polymer concentration, or 3) a higher dynamical contrast between polymer and solvent results in a finer, spongy substructure, whereas the opposite parameter choice gives rise to larger macropores with an elongated shape. These observations are confirmed by comparison to experiments on polystyrene (PS)-block-poly(4-vinylpyridine) (P4VP) diblock copolymer membranes, varying the chemical nature of the coagulant or the temperature of coagulation bath.

摘要

嵌段共聚物和溶剂的自组装及非溶剂诱导相分离(SNIPS)过程能够制备整体不对称的等孔膜。等孔顶层通过蒸发诱导自组装(EISA)形成,赋予功能性大分子超滤或水净化的选择性。该选择层由非溶剂诱导相分离(NIPS)形成的大孔底部结构支撑,提供机械稳定性。从而优化了渗透率/选择性的权衡。SNIPS制备涉及各种物理现象,如蒸发、自组装、宏观相分离、玻璃化等,以及多个结构、热力学、动力学和工艺参数。优化膜性能和合理设计制备工艺是一项挑战,粒子模拟可以对此做出重大贡献。通过大规模粒子模拟观察到:1)共聚物的基质形成嵌段与非溶剂之间的不相容性较小;2)在较低聚合物浓度下发生玻璃化停滞;或3)聚合物与溶剂之间的动力学对比度较高,会导致形成更精细的海绵状亚结构,而相反的参数选择则会产生形状拉长的较大大孔。通过与聚苯乙烯(PS)-嵌段-聚(4-乙烯基吡啶)(P4VP)二嵌段共聚物膜的实验进行比较,改变凝固剂的化学性质或凝固浴的温度,证实了这些观察结果。

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