NiAl2O3 cermet solar absorbers by RF planar magnetron sputtering for high temperature applications

T. Stephen Sathiaraj; R. Thangaraj; O. P. Agnihotri

doi:10.1016/0165-1633(89)90059-2

NiAl₂O₃ cermet solar absorbers by RF planar magnetron sputtering for high temperature applications

T. Stephen Sathiaraj, R. Thangaraj, O. P. Agnihotri

Physics & Astronomy

Research output: Contribution to journal › Article › peer-review

29 Citations (Scopus)

Abstract

NiAl₂O₃ cermet films were sputtered from a hot pressed NiAl₂O₃ composite target, in a RF planar magnetron sputtering system. Coatings of various thickness were deposited on different substrates and their absorptance (α) and emittance (ε{lunate}) were obtained in the solar and thermal infrared regions, respectively, to evaluate their use as spectrally selective surfaces. Films were also deposited on different substrates with SiO₂ anti-reflection coatings and an α of 0.88 to 0.92 and ε{lunate} of 0.07 to 0.33 were obtained. Films of about 700 Å thick deposited on molybdenum-coated nickel-plated stainless steel substrates with 600 Å SiO₂ AR coating and annealed at 550°C in air for six hours have best selective properties with α=0.91 and ε{lunate}=0.07. These coatings are stable up to 500°C in air for more than 1000 h. ESCA and Auger depth profilings were done to estimate the composition and its variation with depth.

Original language	English
Pages (from-to)	343-356
Number of pages	14
Journal	Solar Energy Materials
Volume	18
Issue number	6
DOIs	https://doi.org/10.1016/0165-1633(89)90059-2
Publication status	Published - Jun 1989

All Science Journal Classification (ASJC) codes

General Engineering

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10.1016/0165-1633(89)90059-2

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title = "NiAl2O3 cermet solar absorbers by RF planar magnetron sputtering for high temperature applications",

abstract = "NiAl2O3 cermet films were sputtered from a hot pressed NiAl2O3 composite target, in a RF planar magnetron sputtering system. Coatings of various thickness were deposited on different substrates and their absorptance (α) and emittance (ε{lunate}) were obtained in the solar and thermal infrared regions, respectively, to evaluate their use as spectrally selective surfaces. Films were also deposited on different substrates with SiO2 anti-reflection coatings and an α of 0.88 to 0.92 and ε{lunate} of 0.07 to 0.33 were obtained. Films of about 700 {\AA} thick deposited on molybdenum-coated nickel-plated stainless steel substrates with 600 {\AA} SiO2 AR coating and annealed at 550°C in air for six hours have best selective properties with α=0.91 and ε{lunate}=0.07. These coatings are stable up to 500°C in air for more than 1000 h. ESCA and Auger depth profilings were done to estimate the composition and its variation with depth.",

author = "Sathiaraj, {T. Stephen} and R. Thangaraj and Agnihotri, {O. P.}",

year = "1989",

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T1 - NiAl2O3 cermet solar absorbers by RF planar magnetron sputtering for high temperature applications

AU - Sathiaraj, T. Stephen

AU - Thangaraj, R.

AU - Agnihotri, O. P.

PY - 1989/6

Y1 - 1989/6

N2 - NiAl2O3 cermet films were sputtered from a hot pressed NiAl2O3 composite target, in a RF planar magnetron sputtering system. Coatings of various thickness were deposited on different substrates and their absorptance (α) and emittance (ε{lunate}) were obtained in the solar and thermal infrared regions, respectively, to evaluate their use as spectrally selective surfaces. Films were also deposited on different substrates with SiO2 anti-reflection coatings and an α of 0.88 to 0.92 and ε{lunate} of 0.07 to 0.33 were obtained. Films of about 700 Å thick deposited on molybdenum-coated nickel-plated stainless steel substrates with 600 Å SiO2 AR coating and annealed at 550°C in air for six hours have best selective properties with α=0.91 and ε{lunate}=0.07. These coatings are stable up to 500°C in air for more than 1000 h. ESCA and Auger depth profilings were done to estimate the composition and its variation with depth.

AB - NiAl2O3 cermet films were sputtered from a hot pressed NiAl2O3 composite target, in a RF planar magnetron sputtering system. Coatings of various thickness were deposited on different substrates and their absorptance (α) and emittance (ε{lunate}) were obtained in the solar and thermal infrared regions, respectively, to evaluate their use as spectrally selective surfaces. Films were also deposited on different substrates with SiO2 anti-reflection coatings and an α of 0.88 to 0.92 and ε{lunate} of 0.07 to 0.33 were obtained. Films of about 700 Å thick deposited on molybdenum-coated nickel-plated stainless steel substrates with 600 Å SiO2 AR coating and annealed at 550°C in air for six hours have best selective properties with α=0.91 and ε{lunate}=0.07. These coatings are stable up to 500°C in air for more than 1000 h. ESCA and Auger depth profilings were done to estimate the composition and its variation with depth.

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JO - Solar Energy Materials

JF - Solar Energy Materials

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ER -

NiAl₂O₃ cermet solar absorbers by RF planar magnetron sputtering for high temperature applications

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