材料科学
储能
杏鲍菇
太阳能
可再生能源
多孔性
吸收(声学)
光热治疗
纳米技术
工艺工程
复合材料
化学
电气工程
功率(物理)
工程类
物理
量子力学
蘑菇
食品科学
作者
Xianrong Huang,Jingming Zhu,Yu Fang,Qisheng Liu,Fang Zhang,Xiang Lu
标识
DOI:10.1021/acssuschemeng.5c04910
摘要
With the depletion of fossil fuels and rising environmental issues, there's a pressing need for solar energy storage materials that boost solar utilization and decrease dependence on nonrenewables. Traditional organic phase change materials face limitations in solar energy storage applications due to their proneness to leakage and low light absorption coefficients. Herein, a novel strategy that involves the in situ polymerization of pyrrole on Pleurotus eryngii (Pe) biomass, addressing these challenges by improving light absorption while preserving the high porosity of Pe. The resulting phase change composites (PCCs) achieved an encapsulation rate of 89.7%, a light absorption rate of 96.1% within the wavelength range of 300–2500 nm, and an impressive photothermal conversion efficiency of 91.2% under simulated solar irradiation at an intensity of 5 suns. In summary, our innovative strategy effectively boosts the light absorption coefficient of Pe biomass while preserving its high porosity, providing a feasible solution for the large-scale and expedited manufacturing of solar photothermal energy materials. This work highlights the promise of biomass in driving renewable energy technology forward and supports the pursuit of sustainable energy solutions.
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