Chemically Tailored Biomass Sponge-Based Hierarchical Porous Carbon for Superior Solar Thermal Energy Harvesting and Stable Thermal Energy Storage/release
Materials letters(2024)
摘要
In the past work, almost all biomass sponge-based hierarchical porous carbons are tried to preserve the original 3D porous structure as much as possible, thus restricting their effectiveness in thermal energy utilization. In current work, loofah sponge-based hierarchical porous carbon covering nanometer to micrometer was fabricated through a crosslinking-carbonization-etching chemically tailored process. The re-constructed hierarchical porous carbons (LHPCs) have totally different characteristics from that depending on original 3D pores. The LHPC-based composite phase change materials (PCMs) exhibited the maximum melting/solidifying latent heat of 155.1/158.7 J g(-1) and exceptional thermal reliability. The optimal solar-thermal converting efficiency of the composite PCMs topped 95 %, higher than some expensive carbon-based materials. Compared to previously reported work, the fabricated composite PCMs showed improved thermal energy storage/release capability and solar-heat conversion efficiency. Additionally, the regulation of about 6.3 degrees C for composite PCMs was achieved in a hut test. This work has further advanced a superior porous carbon-tailored strategy compared to the traditional approach, building upon the original 3D porous structure.
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关键词
Phase change material,Biomass carbon,Loofah sponge,Solar-thermal conversion
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