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Energy‐Harvesting Carbon Aerogel Nanofiber Metafabric for High‐Efficiency Thermoregulation

Yucheng Tian, Yixiao Chen, Sai Wang, Xianfeng Wang, Jianyong Yu, Shichao Zhang, Bin Ding

2024Advanced Functional Materials27 citationsDOI

Abstract

Abstract Maintaining body temperature within safe and comfortable range is crucial; however, thermoregulatory materials face challenges in variable environments and extreme application scenarios. Here, a unique dual air‐gelation strategy is developed to synthesize carbon aerogel nanofiber metafabric for energy‐harvesting thermoregulation. By manipulating polyacrylonitrile/water interaction and charge density of the solution, phase separation and Coulombic repulsion in electrospun jets are promoted, forming curly nanofibers with internal nanopores (size 30–60 nm) that entangle to create nanofibrous dual‐aerogel structure; the carbon aerogel nanofiber metafabric is obtained following pre‐oxidation and optimized graphitization. The resulting metafabric exhibits high elasticity, robust temperature resistance from −196 to 600 °C, exceptional thermal insulation performance, high‐efficiency electrothermal capability (adjustable from 15 to 150 °C), and photothermal property (radiation raised temperature by 22 °C). This work provides rich possibilities to develop advanced carbon nanomaterials for thermal management.

Topics & Concepts

Materials scienceAerogelThermoregulationNanofiberCarbon nanofiberCarbon fibersNanotechnologyComposite materialCarbon nanotubeEcologyComposite numberBiologyThermal Radiation and Cooling TechnologiesAerogels and thermal insulationAdvanced Sensor and Energy Harvesting Materials
Energy‐Harvesting Carbon Aerogel Nanofiber Metafabric for High‐Efficiency Thermoregulation | Litcius