Solar Steam Generation: A Recyclable and Hydrophilic Polydopamine/Polyurethane Bio-Foam

材料科学 蒸发 光热治疗 化学工程 海水 太阳能 可再生能源 饮用水净化 热稳定性 水处理 环境友好型 热能储存 碳纤维 纳米技术 光强度 人工海水 光热效应
作者
Jiale Zong,Daxin Wang,N.H. Zheng,Jing Li,Shuhong Li,Xiangdong Wang,Xiaoling Zang
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:18 (5): 8855-8866
标识
DOI:10.1021/acsami.5c22963
摘要

Solar-driven interfacial evaporation has emerged as a promising solution to global freshwater scarcity by harnessing renewable solar energy with minimal carbon emissions. Nevertheless, the low solar-driven water evaporation rate, salt accumulation, and the nonrecyclability of evaporators have limited the practical large-scale application of solar-driven seawater desalination. Thus, developing a highly efficient, self-cleaning, and recyclable solar-driven evaporation system is critical to addressing the global freshwater shortage. In this article, the recyclable biobased polydopamine (PDA)/polyurethane (PU) foam was synthesized with a great photothermal conversion effect and self-cleaning performance. PDA can provide superior photothermal conversion properties and hydrophilicity for pure PU foam, enabling its application in solar interface evaporation. The temperature of the PDA/PU composite foam can reach 90.0 °C under laser irradiation, and 68.7 °C under simulated sunlight at the intensity of 1 kW/m 2 . The solar-driven water evaporation rate of the PDA/PU foam was 1.39 kg m –2 h –1 under simulated sunlight (1 kW/m 2 ) and also presented excellent continuous stability in a 12 h cyclic experiment. The water evaporation rate of PDA/PU foam in natural seawater is 1.34 kg m –2 h –1, demonstrating stable water evaporation and a self-cleaning performance in saline water. Further, the PDA/PU foam can degrade within 72 h in the presence of enzymes illustrating its good recyclability. On the whole, the as-prepared biobased PDA/PU foam exhibits great potential in large-scale solar-driven water evaporation system contributing to its high-efficient photothermal conversion effect, good recyclability, and self-cleaning performance.
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