Form-stable phase change materials enhanced photothermic conversion and thermal conductivity by Ag-expanded graphite

Form-stable phase change materials enhanced photothermic conversion and thermal conductivity by Ag-expanded graphite

Phase change materials (PCMs), which exhibit significant capacity of latent heat absorption and release during the phase change process, have been promisingly used for solar energy conversion and storage. However, the application of organic PCMs for solar energy storage remains a great challenge owi...

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Bibliographic Details
Published in:Journal of energy storage Vol. 52; p. 105060
Main Authors: Luo, Wenxing, Hu, Xiaowu, Che, Yinhui, Zu, Shuai, Li, Qinglin, Jiang, Xiongxin, Liu, Dingjun
Format: Journal Article
Language:English
Published: Elsevier Ltd 25-08-2022
Subjects:
Ag nanoparticle modification
Phase change materials
Solar energy conversion capability
Thermal conductivity
Phase change materials
Thermal conductivity
Solar energy conversion capability
Ag nanoparticle modification
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Summary:Phase change materials (PCMs), which exhibit significant capacity of latent heat absorption and release during the phase change process, have been promisingly used for solar energy conversion and storage. However, the application of organic PCMs for solar energy storage remains a great challenge owing to their low thermal conductivity and liquid leakage problem. In this work, a form-stable PCM with polyethylene glycol (PEG) and epoxy resin (EP) was prepared by melt blending (the mass ratio is 1:1). The experimental results indicated that the leakage problem of PEG was solved by the cross-linking of the molecular chains of PEG and EP. Meanwhile, in order to improve the solar energy conversion capability and thermal conductivity, an extremely low loading (4 wt%) of expanded graphite (EG) modified with Ag nanoparticle was added into the PEG/EP matrix. The results suggested that Ag nanoparticles were uniformly dispersed by electroless silver plating in the surface of EG, and the electroless modified EG was evenly distributed in the PEG/EP matrix. Moreover, the composite fillers exhibited prominent solar energy conversion capability (90.7 %) and higher thermal conductivity (121 %). Therefore, this novel composite has favorable potential in practical applications of solar energy storage. •The form-stable PCMs of PEG-EP/EG-Ag has been successfully prepared.•PEG was confined to the chain structure of EP which solves the leakage problem.•The functionalized fillers improved thermal conductivity (up to 121 %).•Design of Ag modified EG enhanced photothermic conversion efficiency (up to 90.7 %).
ISSN:2352-152X
2352-1538
DOI:10.1016/j.est.2022.105060