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W2997130477 abstract "Abstract Thermal storage performance of form-stable phase change materials (PCMs) is often compromised by the heavy use of the supporting materials. Here, lightweight mesoporous carbon fibers (MCFs) with continuous graphitic walls are prepared by carbonization of polyvinylidene fluoride on magnesium oxide fibers for form-stable PCMs. The structure of the MCFs are comprehensively investigated to show their merits for supports of the PCMs. The MCFs are rich in relatively ordered mesopores, which can provide effective loading of paraffin and give high thermal storage capacities per unit weight. The paraffin loadings of the as-obtained MCF-700, MCF-800 and MCF-900 reach 93, 90, and 92 wt% with maintained shape stability, and deliver the thermal storage capacities of 176.54, 183.35, and 177.75 kJ kg−1, respectively. Due to the abundant pore networks and the improved interfacial property from the in-situ fluorine doping, the MCFs-supported PCMs exhibit high running stability and thermal storage efficiency in cycling. More importantly, the penetrating graphitic walls of the MCFs provide effective thermal-conductive pathways from outside to the interior for rapid thermal transfer. The results exhibit that the MCFs with interconnected graphitic walls can be an effective support of form-stable phase change materials for solar harvesting, etc." @default.
W2997130477 created "2020-01-10" @default.
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W2997130477 date "2020-05-01" @default.
W2997130477 modified "2023-09-30" @default.
W2997130477 title "Lightweight mesoporous carbon fibers with interconnected graphitic walls for supports of form-stable phase change materials with enhanced thermal conductivity" @default.
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W2997130477 doi "https://doi.org/10.1016/j.solmat.2019.110361" @default.
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