材料科学
光电子学
超材料
石墨烯
热的
选择性表面
吸收(声学)
能量转换效率
全向天线
热导率
太阳能
能量转换
宽带
光学
纳米技术
复合材料
物理
电信
计算机科学
气象学
生态学
热力学
生物
天线(收音机)
作者
Keng‐Te Lin,Han Lin,Tieshan Yang,Baohua Jia
标识
DOI:10.1038/s41467-020-15116-z
摘要
An ideal solar-thermal absorber requires efficient selective absorption with a tunable bandwidth, excellent thermal conductivity and stability, and a simple structure for effective solar thermal energy conversion. Despite various solar absorbers having been demonstrated, these conditions are challenging to achieve simultaneously using conventional materials and structures. Here, we propose and demonstrate three-dimensional structured graphene metamaterial (SGM) that takes advantages of wavelength selectivity from metallic trench-like structures and broadband dispersionless nature and excellent thermal conductivity from the ultrathin graphene metamaterial film. The SGM absorbers exhibit superior solar selective and omnidirectional absorption, flexible tunability of wavelength selective absorption, excellent photothermal performance, and high thermal stability. Impressive solar-to-thermal conversion efficiency of 90.1% and solar-to-vapor efficiency of 96.2% have been achieved. These superior properties of the SGM absorber suggest it has a great potential for practical applications of solar thermal energy harvesting and manipulation.
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