Development of composite electrolyte membranes with functional polymer nanofiber frameworks

IF 2.3 4区化学 Q3 POLYMER SCIENCE

Polymer Journal Pub Date : 2025-02-21 DOI:10.1038/s41428-024-01007-3

Hiroyoshi Kawakami

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Abstract

Solid electrolyte membranes based on polymers have shown promise owing to their high-energy demand and the sustainable and cost-effective nature of these materials. However, polymer electrolyte membranes composed of a polymer matrix have not progressed for the following reasons: (1) the low ion conductivity of polymer materials cannot achieve the level required for practical use, and (2) it is difficult to satisfy both battery performance and membrane durability simultaneously because of the trade-offs between ion conductivity and membrane stability. In recent years, research on composite electrolyte membranes composed of polymer nanofibers and a polymer matrix has attracted significant interest because of their improved ion conductivity, excellent membrane durability, and ability to fabricate thinner membranes. Polymeric nanofiber-containing polymer electrolyte membranes are expected to be applied not only to electrolyte membranes for fuel cells and water electrolysis, including alkaline-type electrolyte membranes for water electrolysis, but also to all-solid-state Li-ion batteries and all-solid-state Li-air batteries. This focus review presents the latest information on these topics. Research on composite electrolyte membranes composed of polymer nanofibers and a polymer matrix has attracted significant interest because of their improved ion conductivity, excellent membrane durability, and ability to fabricate thinner membranes. Polymeric nanofiber-containing polymer electrolyte membranes are expected to be applied not only to electrolyte membranes for fuel cells and water electrolysis but also to all-solid-state Li-ion batteries. This focus review presents the latest information on these topics.

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功能化高分子纳米纤维框架复合电解质膜的研制

基于聚合物的固体电解质膜由于其高能量需求和这些材料的可持续和成本效益性质而显示出前景。然而，由聚合物基质组成的聚合物电解质膜一直没有进展，原因如下：(1)聚合物材料的低离子电导率无法达到实际使用所需的水平；(2)由于离子电导率和膜稳定性之间的权衡，很难同时满足电池性能和膜耐久性。近年来，由聚合物纳米纤维和聚合物基体组成的复合电解质膜因其提高离子导电性、优异的膜耐久性和制备更薄膜的能力而引起了人们的极大兴趣。含聚合物纳米纤维的聚合物电解质膜不仅有望应用于燃料电池和水电解电解质膜，包括水电解碱性电解质膜，而且有望应用于全固态锂离子电池和全固态锂空气电池。这篇重点综述介绍了这些主题的最新信息。聚合物纳米纤维和聚合物基质复合电解质膜的研究因其提高离子导电性、优异的膜耐久性和制造更薄膜的能力而引起了人们的极大兴趣。含聚合物纳米纤维的聚合物电解质膜不仅有望应用于燃料电池和水电解的电解质膜，而且有望应用于全固态锂离子电池。这篇重点综述介绍了这些主题的最新信息。

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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来源期刊

Polymer Journal 化学-高分子科学

CiteScore

5.60

自引率

7.10%

发文量

131

审稿时长

2.5 months

期刊介绍： Polymer Journal promotes research from all aspects of polymer science from anywhere in the world and aims to provide an integrated platform for scientific communication that assists the advancement of polymer science and related fields. The journal publishes Original Articles, Notes, Short Communications and Reviews. Subject areas and topics of particular interest within the journal''s scope include, but are not limited to, those listed below: Polymer synthesis and reactions Polymer structures Physical properties of polymers Polymer surface and interfaces Functional polymers Supramolecular polymers Self-assembled materials Biopolymers and bio-related polymer materials Polymer engineering.