High-performance thermochromic YSZ/W-doped VO2/YSZ coatings for energy-saving smart windows

Kód výsledku v IS VaVaI

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Výsledek na webu

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DOI - Digital Object Identifier

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Jazyk výsledku

angličtina

Název v původním jazyce

High-performance thermochromic YSZ/W-doped VO2/YSZ coatings for energy-saving smart windows

Popis výsledku v původním jazyce

Vanadium dioxide (VO2) exhibits a reversible phase transition from a low-temperature monoclinic VO2 (M1) semiconducting phase to a high-temperature tetragonal VO2 (R) metallic phase at a transition temperature of approximately 68 °C for the bulk material. The automatic response to temperature and the abrupt decrease of infrared transmittance without attenuation of luminous transmittance in the metallic state make VO2-based coatings a promising candidate for thermochromic smart windows reducing the energy consumption of buildings. To meet the requirements for large-scale implementation on building glass, VO2-based coatings should satisfy the following strict criteria simultaneously: a deposition temperature close to 300 °C, a transition temperature close to 25 °C, an integral luminous transmittance &gt; 60 %, a modulation of the solar energy transmittance &gt; 10 %, long-term environmental stability, and a more appealing color than yellowish or brownish colors in transmission. The paper deals with a scalable sputter deposition technique for the preparation of strongly thermochromic YSZ/W-doped VO2/YSZ coatings on standard soda-lime glass at a relatively low substrate surface temperature (350 °C) and without any substrate bias voltage. The W-doped VO2 layers were deposited using a controlled reactive deep oscillation magnetron sputtering of a V–W target while the antireflection Y-stabilized ZrO2 (YSZ) layers were deposited using a controlled reactive standard high-power impulse magnetron sputtering of a Zr–Y target. The fundamental principles of this technique and the structure and optical properties of the thermochromic coatings are presented. Such a combination of properties, together with the relatively low deposition temperature, has not yet been published by other teams for thermochromic VO2-based coatings prepared by a scalable technique.

Název v anglickém jazyce

High-performance thermochromic YSZ/W-doped VO2/YSZ coatings for energy-saving smart windows

Popis výsledku anglicky

Vanadium dioxide (VO2) exhibits a reversible phase transition from a low-temperature monoclinic VO2 (M1) semiconducting phase to a high-temperature tetragonal VO2 (R) metallic phase at a transition temperature of approximately 68 °C for the bulk material. The automatic response to temperature and the abrupt decrease of infrared transmittance without attenuation of luminous transmittance in the metallic state make VO2-based coatings a promising candidate for thermochromic smart windows reducing the energy consumption of buildings. To meet the requirements for large-scale implementation on building glass, VO2-based coatings should satisfy the following strict criteria simultaneously: a deposition temperature close to 300 °C, a transition temperature close to 25 °C, an integral luminous transmittance &gt; 60 %, a modulation of the solar energy transmittance &gt; 10 %, long-term environmental stability, and a more appealing color than yellowish or brownish colors in transmission. The paper deals with a scalable sputter deposition technique for the preparation of strongly thermochromic YSZ/W-doped VO2/YSZ coatings on standard soda-lime glass at a relatively low substrate surface temperature (350 °C) and without any substrate bias voltage. The W-doped VO2 layers were deposited using a controlled reactive deep oscillation magnetron sputtering of a V–W target while the antireflection Y-stabilized ZrO2 (YSZ) layers were deposited using a controlled reactive standard high-power impulse magnetron sputtering of a Zr–Y target. The fundamental principles of this technique and the structure and optical properties of the thermochromic coatings are presented. Such a combination of properties, together with the relatively low deposition temperature, has not yet been published by other teams for thermochromic VO2-based coatings prepared by a scalable technique.

Druh

O - Ostatní výsledky

CEP obor

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OECD FORD obor

20506 - Coating and films

Projekt

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Návaznosti

S - Specificky vyzkum na vysokych skolach

Rok uplatnění

2023

Kód důvěrnosti údajů

S - Úplné a pravdivé údaje o projektu nepodléhají ochraně podle zvláštních právních předpisů