Transient Structural Colors with Magnesium‐Based Reflective Filters (Advanced Optical Materials 13/2022)

Marina S. Leite and co‐workers (article number 2200159) demonstrate thin‐film‐based color filters using Mg and MgO, both biodegradable materials. The devices exhibit vivid hues spanning a broad gamut, besides angle‐insensitive chromaticity up to 40 degrees. A transient color response is attained by...

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Veröffentlicht in:	Advanced optical materials 2022-07, Vol.10 (13), p.n/a
Hauptverfasser:	Lyu, Peifen, Gong, Tao, Rebello Sousa Dias, Mariama, Leite, Marina S.
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Sprache:	eng
Schlagworte:	color filters earth‐abundant materials magnesium structural colors transient photonics
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description	Marina S. Leite and co‐workers (article number 2200159) demonstrate thin‐film‐based color filters using Mg and MgO, both biodegradable materials. The devices exhibit vivid hues spanning a broad gamut, besides angle‐insensitive chromaticity up to 40 degrees. A transient color response is attained by etching the Mg‐containing layers with water, which reveals the hue of a bottom Fabry–Pérot cavity structure. This approach enables pixels with irreversible color change as well as zero‐power consumption and low cost, while making use of non‐toxic materials.
doi_str_mv	10.1002/adom.202270049
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Leite and co‐workers (article number 2200159) demonstrate thin‐film‐based color filters using Mg and MgO, both biodegradable materials. The devices exhibit vivid hues spanning a broad gamut, besides angle‐insensitive chromaticity up to 40 degrees. A transient color response is attained by etching the Mg‐containing layers with water, which reveals the hue of a bottom Fabry–Pérot cavity structure. 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Leite and co‐workers (article number 2200159) demonstrate thin‐film‐based color filters using Mg and MgO, both biodegradable materials. The devices exhibit vivid hues spanning a broad gamut, besides angle‐insensitive chromaticity up to 40 degrees. A transient color response is attained by etching the Mg‐containing layers with water, which reveals the hue of a bottom Fabry–Pérot cavity structure. This approach enables pixels with irreversible color change as well as zero‐power consumption and low cost, while making use of non‐toxic materials.</abstract><doi>10.1002/adom.202270049</doi><tpages>1</tpages><oa>free_for_read</oa></addata></record>
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subjects	color filters earth‐abundant materials magnesium structural colors transient photonics
title	Transient Structural Colors with Magnesium‐Based Reflective Filters (Advanced Optical Materials 13/2022)
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