Dibasic esters as green solvents for PVDF membrane preparation†

IF 9.3 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Green Chemistry Pub Date : 2023-08-15 DOI:10.1039/D3GC02366D

Norafiqah Ismail, Qiuyueming Zhou, Qian Wang, Zhaoliang Cui, Nils Skoglund and Naser Tavajohi

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引用次数: 0

Abstract

Solvent toxicity is a major barrier to sustainable fabrication of polymeric membranes. This study introduces three dibasic esters (DBEs) as alternative membrane fabrication solvents that are biodegradable, non-carcinogenic, non-corrosive, and non-hazardous. The use of DBEs in fabrication processes shifts the monotectic point in the phase diagram of PVDF/solvent systems towards higher polymer concentrations, enabling membrane formation by liquid–liquid phase inversion to produce a bicontinuous structure that confers outstanding performance. The best-performing membrane prepared in this way had an exceptional flux of 42.40 kg m⁻² h⁻¹ and a high rejection rate (>99%) in the decontamination of synthetic nuclear wastewater. Compared to membranes prepared previously using toxic and non-toxic solvents, membranes fabricated in DBEs exhibited superior mechanical performance due to their bicontinuous structure, which effectively distributes external forces throughout the membrane. Moreover, DBEs are cheaper than toxic conventional solvents and are readily available in bulk, making them attractive options for industrial-scale membrane production.

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绿色溶剂在PVDF膜制备中的应用

溶剂毒性是聚合物膜可持续制备的主要障碍。本研究介绍了三种双碱酯(DBEs)作为生物可降解、无致癌、无腐蚀和无害的替代膜制造溶剂。DBEs在制造过程中的使用将PVDF/溶剂体系相图中的单晶点转移到更高的聚合物浓度，从而通过液-液相转化形成膜，从而产生具有优异性能的双连续结构。用这种方法制备的膜具有42.40 kg m−2 h−1的通量和99%的高去除率。与之前使用有毒和无毒溶剂制备的膜相比，DBEs制备的膜由于其双连续结构而具有优异的力学性能，该结构有效地将外力分布在整个膜上。此外，DBEs比有毒的传统溶剂更便宜，并且易于批量生产，使其成为工业规模膜生产的有吸引力的选择。

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来源期刊

Green Chemistry 化学-化学综合

CiteScore

16.10

自引率

7.10%

发文量

677

审稿时长

1.4 months

期刊介绍： Green Chemistry is a journal that provides a unique forum for the publication of innovative research on the development of alternative green and sustainable technologies. The scope of Green Chemistry is based on the definition proposed by Anastas and Warner (Green Chemistry: Theory and Practice, P T Anastas and J C Warner, Oxford University Press, Oxford, 1998), which defines green chemistry as the utilisation of a set of principles that reduces or eliminates the use or generation of hazardous substances in the design, manufacture and application of chemical products. Green Chemistry aims to reduce the environmental impact of the chemical enterprise by developing a technology base that is inherently non-toxic to living things and the environment. The journal welcomes submissions on all aspects of research relating to this endeavor and publishes original and significant cutting-edge research that is likely to be of wide general appeal. For a work to be published, it must present a significant advance in green chemistry, including a comparison with existing methods and a demonstration of advantages over those methods.