设计节能分离膜:来自大自然的知识,创造可持续发展的未来

Ting Chen , Xiuming Wei , Zheng Chen , Duncan Morin , Sarai Veiga Alvarez , Yeomin Yoon , Yi Huang
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引用次数: 17

摘要

在过去的几十年里,膜分离以其低能耗、操作方便、减少二次污染等优点为解决能源和环境挑战提供了有效的解决方案。高效能的膜分离过程通常需要具有优异化学、机械性能、特殊纳米结构和优异分离特性的高性能膜。因此,人们投入了大量的精力来寻找和设计具有优化膜结构的新型膜材料。近年来,研究人员已经深入了解如何从大自然中学习仿生概念或策略,以设计具有良好结构的节能分离膜。这是因为,经过45亿年的进化,自然界已经成为科学家和工程师的天然学校,为设计更可持续的分离材料提供了惊人的解决方案/灵感。在这篇综述中,特别关注分离膜设计的自然知识及其设计策略的最新进展。此外,对天然功能材料在膜生产中替代传统化石基材料的应用进行了综述。讨论了新一代膜的发展方向和面临的挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Designing energy-efficient separation membranes: Knowledge from nature for a sustainable future

Designing energy-efficient separation membranes: Knowledge from nature for a sustainable future

Membrane separation has provided efficient solutions for addressing energy and environmental challenges over the past few decades due to its low energy consumption, convenient operation, and reduced secondary pollution. An energy-efficient membrane separation process usually requires high-performance membranes with outstanding chemical, mechanical properties, special nanostructures, and superior separation characteristics. Hence, considerable effort has been devoted to finding and designing new membrane materials with optimized membrane structures. In recent years, researchers have gained deep knowledge of learning biomimetic concepts or strategies from nature for designing energy-efficient separation membranes with favorable structures. This is because, after 4.5 billion years of evolution, the world of nature has become a natural school for scientists and engineers, which has offered astonishing solutions/inspirations for designing more sustainable separation materials. In this review, particular attention is paid to knowledge from nature for the design of separation membranes and recent advancements in their design strategies. Additionally, natural functional materials that have been utilized in the replacement of conventional fossil-based materials for membrane production are reviewed. Present challenges and directions for the development of next-generation membranes are also discussed.

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