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Open Access Industrially feasible Nb5Si3-ITO-based mid-to-high temperature solar-selective absorbing coating with favorable optical property and thermal stability

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Nb5Si3, Nb5Si3-ITO, and Si3N4 layers are all deposited by magnetron sputtering technique on Al to obtain Nb5Si3-ITO-based solar selective coating. The structure, composition, and morphology of the Nb5Si3-ITO core layer have been studied by the means of X-ray diffraction, X-ray photoelectron spectroscopy, and scanning electronic microscopy. The solar absorptance (α) and thermal emittance (ε) of the solar selective coating have been investigated by UV/VIS/NIR spectrophotometry. The solar absorptance of Al/Nb5Si3/Nb5Si3-ITO/Si3N4 coating with 15 at.% ITO in Nb5Si3-ITO layer is 88.98% as deposited and 85.78% after annealed at 500 °C for 40 h in air. To further improve its solar absorptance and thermal stability, metal Mo deposited on stainless steel substrate is introduced as an IR-reflective metallic layer beneath the Nb5Si3/Nb5Si3-ITO/Si3N4 layers. Eventually, the SS/Mo/Nb5Si3/Nb5Si3-ITO/Si3N4 coating exhibits solar absorptance of 93.06% and thermal emittance of 8.8% as deposited and the optical performance remains nearly the same after annealed at 500 °C for 120 h in air. This technique has been successfully transferred to industrial application. In addition, the optical performance and thermal stability of the SS/Mo/Nb5Si3/Nb5Si3-ITO/Si3N4 solar selective absorbing coating have been certified by Solartechnik Prüfung Forschung.
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Keywords: INDUSTRIAL APPLICATION; NB5SI3-ITO; SOLAR ABSORPTANCE; SOLAR SELECTIVE COATING; THERMAL STABILITY

Document Type: Research Article

Publication date: August 1, 2016

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  • Materials Express is a peer-reviewed multidisciplinary journal reporting emerging researches on materials science, engineering, technology and biology. Cutting-edge researches on the synthesis, characterization, properties, and applications of a very wide range of materials are covered for broad readership; from physical sciences to life sciences. In particular, the journal aims to report advanced materials with interesting electronic, magnetic, optical, mechanical and catalytic properties for industrial applications.
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