用于热能存储、传输和转换的碳基复合相变材料。

Carbon-Based Composite Phase Change Materials for Thermal Energy Storage, Transfer, and Conversion.

作者信息

Chen Xiao, Cheng Piao, Tang Zhaodi, Xu Xiaoliang, Gao Hongyi, Wang Ge

机构信息

Institute of Advanced Materials Beijing Normal University Beijing 100875 P. R. China.

Beijing Advanced Innovation Center for Materials Genome Engineering Beijing Key Laboratory of Function Materials for Molecule & Structure Construction School of Materials Science and Engineering University of Science and Technology Beijing Beijing 100083 P. R. China.

出版信息

Adv Sci (Weinh). 2021 Mar 3;8(9):2001274. doi: 10.1002/advs.202001274. eCollection 2021 May.

DOI:10.1002/advs.202001274

PMID:33977039

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8097397/

Abstract

Phase change materials (PCMs) can alleviate concerns over energy to some extent by reversibly storing a tremendous amount of renewable and sustainable thermal energy. However, the low thermal conductivity, low electrical conductivity, and weak photoabsorption of pure PCMs hinder their wider applicability and development. To overcome these deficiencies and improve the utilization efficiency of thermal energy, versatile carbon materials have been increasingly considered as supporting materials to construct shape-stabilized composite PCMs. Despite some carbon-based composite PCMs reviews regarding thermal conductivity enhancement, a comprehensive review of carbon-based composite PCMs does not exist. Herein, a systematic overview of recent carbon-based composite PCMs for thermal storage, transfer, conversion (solar-to-thermal, electro-to-thermal and magnetic-to-thermal), and advanced multifunctional applications, including novel metal organic framework (MOF)-derived carbon materials are provided. The current challenges and future opportunities are also highlighted. The authors hope this review can provide in-depth insights and serve as a useful guide for the targeted design of high-performance carbon-based composite PCMs.

摘要

相变材料（PCM）通过可逆地存储大量可再生且可持续的热能，在一定程度上可缓解人们对能源的担忧。然而，纯PCM的低导热性、低导电性和弱光吸收性阻碍了它们更广泛的应用和发展。为克服这些不足并提高热能利用效率，多功能碳材料越来越多地被视为构建形状稳定复合PCM的支撑材料。尽管已有一些关于提高导热性的碳基复合PCM综述，但尚无对碳基复合PCM的全面综述。在此，本文对近期用于蓄热、传热、转换（太阳能-热能、电-热能和磁-热能）以及包括新型金属有机框架（MOF）衍生碳材料在内的先进多功能应用的碳基复合PCM进行了系统概述。同时也强调了当前面临的挑战和未来的机遇。作者希望这篇综述能提供深入见解，并为高性能碳基复合PCM的靶向设计提供有用指导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ef0c/8097397/3a1cd461a01f/ADVS-8-2001274-g020.jpg

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用于热能存储、传输和转换的碳基复合相变材料。

Carbon-Based Composite Phase Change Materials for Thermal Energy Storage, Transfer, and Conversion.

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