Porous Graphene-based Membranes: Preparation and Properties of a Unique Two-dimensional Nanomaterial Membrane for Water Purification

Separation & Purification Reviews Pub Date : 2021-07-03 DOI:10.1080/15422119.2020.1725048

S. Remanan, N. Padmavathy, Sabyasachi Ghosh, Subhadip Mondal, S. Bose, N. Das

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引用次数: 29

Abstract

ABSTRACT Fabrication of nanoporous membranes from two-dimensional nanomaterial has recently gained increased research interest because of their flexibility, freestanding film formability, selectivity, and ability to withstand the applied transmembrane pressure. Among various 2D materials, graphene and its derivatives are widely employed for the preparation of next-generation membranes due to their excellent separation properties with inherent qualities like atomic thickness, good tensile strength, and frictionless surface for real-time applications. This review discusses the recent progress in three types of porous graphene-based materials, which are holey graphene, graphene nanomesh and graphene oxide laminates, and their applicability for membrane separations. This review aims to summarize the preparation and properties of these membranes for water purification application. The various factors which influence the separation efficiency of the graphene-derived membranes such as mechanical stability, effect of surface architecture, effect of interlayer spacing, and various crosslinking strategies are also discussed.

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多孔石墨烯基膜:一种用于水净化的独特二维纳米材料膜的制备和性能

利用二维纳米材料制备纳米孔膜，由于其柔韧性、独立成膜性、选择性和承受跨膜压力的能力，近年来获得了越来越多的研究兴趣。在各种二维材料中，石墨烯及其衍生物由于其优异的分离性能，如原子厚度、良好的拉伸强度和无摩擦表面等，被广泛用于制备下一代膜。本文综述了多孔石墨烯基材料(多孔石墨烯、石墨烯纳米网和氧化石墨烯层叠板)的研究进展及其在膜分离中的应用。本文就水净化膜的制备及性能进行综述。讨论了影响石墨烯衍生膜分离效率的各种因素，如机械稳定性、表面结构的影响、层间距的影响以及各种交联策略。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Separation & Purification Reviews

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