Optical and electrical properties of ITO thin films sputtered on flexible FEP substrate as passive thermal control system for space applications

ITO thin films were deposited on flexible fluorinated ethylene propylene (FEP) substrates by pulsed direct current reactive magnetron sputtering system using an In:Sn (90%–10% wt.) alloy target. The influence of the deposition parameters (argon and oxygen flow rates, and substrate temperature) and e...

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Published in:Solar energy materials and solar cells 2016-02, Vol.145 (Part 3), p.314-322
Main Authors: Sibin, K.P., Swain, Niharika, Chowdhury, Prasanta, Dey, Arjun, Sridhara, N., Shashikala, H.D., Sharma, Anand Kumar, Barshilia, Harish C.
Format: Article
Language:English
Subjects:
Angular reflection
Coating
Electrical resistivity
Emittance
FEP substrate
Flexible optical solar reflector
Haze
Indium tin oxide (ITO)
Optical properties
Space applications
Sputtering
Substrates
Thin films
Transmittance
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cited_by cdi_FETCH-LOGICAL-c484t-7ab420b0d596b99c5cf6bb0ee4cb50fd15b23c10ef7ee3dd44e605f1af9ae0253
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container_end_page 322
container_issue Part 3
container_start_page 314
container_title Solar energy materials and solar cells
container_volume 145
creator Sibin, K.P.
Swain, Niharika
Chowdhury, Prasanta
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Shashikala, H.D.
Sharma, Anand Kumar
Barshilia, Harish C.
description ITO thin films were deposited on flexible fluorinated ethylene propylene (FEP) substrates by pulsed direct current reactive magnetron sputtering system using an In:Sn (90%–10% wt.) alloy target. The influence of the deposition parameters (argon and oxygen flow rates, and substrate temperature) and effect of coating thickness on the optical, electrical, structural and microstructural properties of ITO thin films deposited on FEP was investigated. The thickness of the ITO coatings was varied from 5 to 180nm. The optimized ITO coating (10nm thick) exhibited high IR emittance (79%) on FEP substrate with high average solar transmittance (94.0%) and moderate sheet resistance (3kΩ/sq.). We also investigated in detail the angular dependence of reflectance as well as haze factor of thin ITO coatings. Our results suggest that 10nm thick ITO coating exhibits an average haze factor of 8.6%. The high value of IR emittance, moderate sheet resistance and high solar transmittance along with low haze factor indicate the suitability of ITO thin films on FEP substrates as flexible optical solar reflector for space applications. •ITO thin films were deposited on FEP substrates by sputtering.•Optical, electrical, structural and mechanical properties were studied.•ITO coating on FEP exhibits T of 94%, RS of 3kΩ/sq. and ε of 79%.•Thin ITO on FEP substrate is suitable for passive thermal control system.
doi_str_mv 10.1016/j.solmat.2015.10.035
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subjects Angular reflection
Coating
Electrical resistivity
Emittance
FEP substrate
Flexible optical solar reflector
Haze
Indium tin oxide (ITO)
Optical properties
Space applications
Sputtering
Substrates
Thin films
Transmittance
title Optical and electrical properties of ITO thin films sputtered on flexible FEP substrate as passive thermal control system for space applications
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