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Near-ideal solar absorber with ultra-broadband from UV to MIR

Lejia Wu, Zhiwei Li, Wenjie Wang, Shilin Chen, Hao Ruan

2022Results in Physics22 citationsDOIOpen Access PDF

Abstract

Solar energy is an important path to solving today's energy and environmental crisis as a clean and renewable energy source. Near-ideal solar absorber provides potential technical support for achieving this path as an efficient solar energy harvesting device. In this paper, we present a near-ideal ultra-broadband solar absorber based on metal nanowires, an intermediate dielectric layer, and a metallic substrate layer (MIM structure). Numerical simulation results show that the proposed absorber can achieve more than 90 % absorption in the broadband range of 350–2965 nm, with an average absorption of 95.26 %. The absorption performance of the absorber is correlated with the geometrical parameters of the structure. Meanwhile, the absorber exhibits polarization-independent, incident angle insensitivity, high-temperature thermal stability, and robustness to materials, especially the material's robustness increases the degree of freedom of absorber design and fabrication, and these properties give it a great advantage in practical solar energy capture and harvesting.

Topics & Concepts

Materials scienceBroadbandSolar energyOptoelectronicsRenewable energyRobustness (evolution)Photovoltaic systemAbsorption (acoustics)FabricationOpticsDielectricEnergy harvestingPhysicsEnergy (signal processing)Composite materialElectrical engineeringChemistryEngineeringAlternative medicineGeneMedicineQuantum mechanicsBiochemistryPathologyMetamaterials and Metasurfaces ApplicationsThermal Radiation and Cooling TechnologiesSolar-Powered Water Purification Methods
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