Litcius/Paper detail

Wide-angle and broadband solar absorber made using highly efficient large-area fabrication strategy

Wenjie Hou, Fan Yang, Zeming Chen, Jianwen Dong, Shaoji Jiang

2022Optics Express33 citationsDOIOpen Access PDF

Abstract

High performance and cost-effective solar absorbers are crucial for various optical applications, such as solar collection and thermophotovoltaic devices. This study designs and experimentally demonstrates a wide-angle and broadband solar absorber. The proposed absorber is composed of tapered polyimide substrate and Al-Cr-SiO 2 -Cr-SiO 2 thin-film based on the optical interference of the multilayer thin film and excited magnetic resonance of light-trapping structures. The composite process of the colloidal lithography method and magnetron sputtering is employed for efficient fabrication in a large area. The average absorbance is more than 93% from 300 nm to 2500 nm and shows an angular tolerance of up to 60°. The high efficiency and large-area fabrication capability demonstrated by the proposed solar absorber presents future application potential in flexible solar collection devices.

Topics & Concepts

Materials scienceFabricationOptoelectronicsOpticsThermophotovoltaicSputter depositionPlasmonic solar cellSolar energyThin filmBroadbandSubstrate (aquarium)Energy conversion efficiencySputteringInterference lithographyAbsorbanceLithographyOptical coatingPhotolithographyPhotovoltaic systemNanoimprint lithographySelective surfaceSolar cellEtching (microfabrication)PolyimideInterference (communication)Surface roughnessMiniaturizationSolar cell efficiencySolar-Powered Water Purification MethodsSolar Thermal and Photovoltaic SystemsThermal Radiation and Cooling Technologies