功能化纳米粒子在改善中低温氢燃料电池质子交换膜性能中的作用:综述

IF 4.8 2区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Abdul Salam, Oksana Zholobko, Xiang-Fa Wu
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引用次数: 0

摘要

为了提高聚合物基质子交换膜(PEM)的电化学和机械耐久性,人们对各种纳米粒子(如SiO2、TiO2、CeO2、Co3O4等)及其功能化对应物进行了深入研究,以用于中低温燃料电池。本研究旨在全面综述功能化 NPs 在提高 PEM 性能方面的作用,包括质子传导性、气体交叉阻力、电化学和机械耐久性等。本文简要回顾了 PEM 燃料电池(PEMFC)技术的历史。回顾了典型的 NPs 类型及其功能化技术,并详细比较了它们在改善 PEM 性能方面的作用。因此,对开发用于 PEM 和 PEMFC 的高性能功能化 NPs 的机遇和挑战进行了展望和论证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Roles of functionalized nanoparticles in the performance improvement of proton-exchange membranes used in low- and intermediate-temperature hydrogen fuel cells: A review

A variety of nanoparticles (NPs) (e.g., SiO2, TiO2, CeO2, Co3O4, etc.) and their functionalized counterparts have been intensively investigated for improving the electrochemical and mechanical durability of polymer-based proton-exchange membranes (PEMs) for use in low- and intermediate-temperature fuel cells. This study is to conduct a comprehensive review on the roles of functionalized NPs in the performance enhancement of PEMs including proton conductivity, gas crossover resistance, electrochemical and mechanical durability, etc. A brief historical review of PEM fuel cell (PEMFC) technology is made. Typical types of NPs and their functionalization techniques are retrospected and their roles in the performance improvement of PEMs are compared in detail. Consequently, the opportunities and challenges to develop high-performance functionalized NPs for use in PEMs and PEMFCs are prospected and justified.

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来源期刊
CiteScore
8.60
自引率
2.10%
发文量
2812
审稿时长
49 days
期刊介绍: Progress in Natural Science: Materials International provides scientists and engineers throughout the world with a central vehicle for the exchange and dissemination of basic theoretical studies and applied research of advanced materials. The emphasis is placed on original research, both analytical and experimental, which is of permanent interest to engineers and scientists, covering all aspects of new materials and technologies, such as, energy and environmental materials; advanced structural materials; advanced transportation materials, functional and electronic materials; nano-scale and amorphous materials; health and biological materials; materials modeling and simulation; materials characterization; and so on. The latest research achievements and innovative papers in basic theoretical studies and applied research of material science will be carefully selected and promptly reported. Thus, the aim of this Journal is to serve the global materials science and technology community with the latest research findings. As a service to readers, an international bibliography of recent publications in advanced materials is published bimonthly.
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