Fano resonant optical coatings platform for full gamut and high purity structural colors
Structural coloring is a photostable and environmentally friendly coloring approach that harnesses optical interference and nanophotonic resonances to obtain colors with a range of applications including display technologies, colorful solar panels, steganography, décor, data storage, and anticounter...
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| Vydáno v: | Nature communications Ročník 14; číslo 1; s. 3960 - 6 |
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| Hlavní autoři: | , , , , , , , |
| Médium: | Journal Article |
| Jazyk: | angličtina |
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Nature Publishing Group UK
05.07.2023
Nature Publishing Group Nature Portfolio |
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| ISSN: | 2041-1723, 2041-1723 |
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| Abstract | Structural coloring is a photostable and environmentally friendly coloring approach that harnesses optical interference and nanophotonic resonances to obtain colors with a range of applications including display technologies, colorful solar panels, steganography, décor, data storage, and anticounterfeiting measures. We show that optical coatings exhibiting the photonic Fano Resonance present an ideal platform for structural coloring; they provide full color access, high color purity, high brightness, controlled iridescence, and scalable manufacturing. We show that an additional oxide film deposited on Fano resonant optical coatings (FROCs) increases the color purity (up to 99%) and color gamut coverage range of FROCs to 61% of the CIE color space. For wide-area structural coloring applications, FROCs have a significant advantage over existing structural coloring schemes.
Fano resonant optical coatings (FROCs) present an ideal platform for structural coloring from thin-film metamaterials. This platform provides full-color gamut coverage at greater than 61% of the CIE gamut, with exceptionally high purity (up to 99%) and high brightness. FROCs exhibit tunable iridescence, cost-effective and scalable manufacturing, and significant advantages over existing structural coloring schemes. |
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| AbstractList | Structural coloring is a photostable and environmentally friendly coloring approach that harnesses optical interference and nanophotonic resonances to obtain colors with a range of applications including display technologies, colorful solar panels, steganography, décor, data storage, and anticounterfeiting measures. We show that optical coatings exhibiting the photonic Fano Resonance present an ideal platform for structural coloring; they provide full color access, high color purity, high brightness, controlled iridescence, and scalable manufacturing. We show that an additional oxide film deposited on Fano resonant optical coatings (FROCs) increases the color purity (up to 99%) and color gamut coverage range of FROCs to 61% of the CIE color space. For wide-area structural coloring applications, FROCs have a significant advantage over existing structural coloring schemes.Structural coloring is a photostable and environmentally friendly coloring approach that harnesses optical interference and nanophotonic resonances to obtain colors with a range of applications including display technologies, colorful solar panels, steganography, décor, data storage, and anticounterfeiting measures. We show that optical coatings exhibiting the photonic Fano Resonance present an ideal platform for structural coloring; they provide full color access, high color purity, high brightness, controlled iridescence, and scalable manufacturing. We show that an additional oxide film deposited on Fano resonant optical coatings (FROCs) increases the color purity (up to 99%) and color gamut coverage range of FROCs to 61% of the CIE color space. For wide-area structural coloring applications, FROCs have a significant advantage over existing structural coloring schemes. Structural coloring is a photostable and environmentally friendly coloring approach that harnesses optical interference and nanophotonic resonances to obtain colors with a range of applications including display technologies, colorful solar panels, steganography, décor, data storage, and anticounterfeiting measures. We show that optical coatings exhibiting the photonic Fano Resonance present an ideal platform for structural coloring; they provide full color access, high color purity, high brightness, controlled iridescence, and scalable manufacturing. We show that an additional oxide film deposited on Fano resonant optical coatings (FROCs) increases the color purity (up to 99%) and color gamut coverage range of FROCs to 61% of the CIE color space. For wide-area structural coloring applications, FROCs have a significant advantage over existing structural coloring schemes. Fano resonant optical coatings (FROCs) present an ideal platform for structural coloring from thin-film metamaterials. This platform provides full-color gamut coverage at greater than 61% of the CIE gamut, with exceptionally high purity (up to 99%) and high brightness. FROCs exhibit tunable iridescence, cost-effective and scalable manufacturing, and significant advantages over existing structural coloring schemes. Structural coloring is a photostable and environmentally friendly coloring approach that harnesses optical interference and nanophotonic resonances to obtain colors with a range of applications including display technologies, colorful solar panels, steganography, décor, data storage, and anticounterfeiting measures. We show that optical coatings exhibiting the photonic Fano Resonance present an ideal platform for structural coloring; they provide full color access, high color purity, high brightness, controlled iridescence, and scalable manufacturing. We show that an additional oxide film deposited on Fano resonant optical coatings (FROCs) increases the color purity (up to 99%) and color gamut coverage range of FROCs to 61% of the CIE color space. For wide-area structural coloring applications, FROCs have a significant advantage over existing structural coloring schemes. Fano resonant optical coatings (FROCs) present an ideal platform for structural coloring from thin-film metamaterials. This platform provides full-color gamut coverage at greater than 61% of the CIE gamut, with exceptionally high purity (up to 99%) and high brightness. FROCs exhibit tunable iridescence, cost-effective and scalable manufacturing, and significant advantages over existing structural coloring schemes. Abstract Structural coloring is a photostable and environmentally friendly coloring approach that harnesses optical interference and nanophotonic resonances to obtain colors with a range of applications including display technologies, colorful solar panels, steganography, décor, data storage, and anticounterfeiting measures. We show that optical coatings exhibiting the photonic Fano Resonance present an ideal platform for structural coloring; they provide full color access, high color purity, high brightness, controlled iridescence, and scalable manufacturing. We show that an additional oxide film deposited on Fano resonant optical coatings (FROCs) increases the color purity (up to 99%) and color gamut coverage range of FROCs to 61% of the CIE color space. For wide-area structural coloring applications, FROCs have a significant advantage over existing structural coloring schemes. Structural coloring is a photostable and environmentally friendly coloring approach that harnesses optical interference and nanophotonic resonances to obtain colors with a range of applications including display technologies, colorful solar panels, steganography, décor, data storage, and anticounterfeiting measures. We show that optical coatings exhibiting the photonic Fano Resonance present an ideal platform for structural coloring; they provide full color access, high color purity, high brightness, controlled iridescence, and scalable manufacturing. We show that an additional oxide film deposited on Fano resonant optical coatings (FROCs) increases the color purity (up to 99%) and color gamut coverage range of FROCs to 61% of the CIE color space. For wide-area structural coloring applications, FROCs have a significant advantage over existing structural coloring schemes. |
| ArticleNumber | 3960 |
| Author | ElKabbash, Mohamed Guo, Chunlei Hoffman, Nathaniel Lininger, Andrew R. Hinczewski, Michael Strangi, Giuseppe Jalil, Sohail A. Letsou, Theodore |
| Author_xml | – sequence: 1 givenname: Mohamed surname: ElKabbash fullname: ElKabbash, Mohamed email: melkabbash@arizona.edu organization: The Institute of Optics, University of Rochester, College of Optical Sciences, University of Arizona – sequence: 2 givenname: Nathaniel orcidid: 0000-0002-8865-2286 surname: Hoffman fullname: Hoffman, Nathaniel organization: Department of Physics, Case Western Reserve University – sequence: 3 givenname: Andrew R. orcidid: 0000-0001-6401-7301 surname: Lininger fullname: Lininger, Andrew R. organization: Department of Physics, Case Western Reserve University – sequence: 4 givenname: Sohail A. surname: Jalil fullname: Jalil, Sohail A. organization: The Institute of Optics, University of Rochester – sequence: 5 givenname: Theodore surname: Letsou fullname: Letsou, Theodore organization: Department of Physics, Case Western Reserve University – sequence: 6 givenname: Michael orcidid: 0000-0003-2837-7697 surname: Hinczewski fullname: Hinczewski, Michael email: mxh605@case.edu organization: Department of Physics, Case Western Reserve University – sequence: 7 givenname: Giuseppe orcidid: 0000-0002-7509-2048 surname: Strangi fullname: Strangi, Giuseppe email: gxs284@case.edu organization: Department of Physics, Case Western Reserve University, CNR-NANOTEC and the Department of Physics University of Calabria – sequence: 8 givenname: Chunlei surname: Guo fullname: Guo, Chunlei email: guo@optics.rochester.edu organization: The Institute of Optics, University of Rochester |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/37407559$$D View this record in MEDLINE/PubMed |
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| CitedBy_id | crossref_primary_10_1016_j_optlastec_2025_112728 crossref_primary_10_1038_s41467_024_50876_y crossref_primary_10_1515_nanoph_2023_0723 crossref_primary_10_1016_j_ceramint_2024_11_250 crossref_primary_10_1002_advs_202501941 crossref_primary_10_1515_nanoph_2024_0471 crossref_primary_10_1016_j_optmat_2025_117483 crossref_primary_10_1186_s43593_025_00092_y crossref_primary_10_3390_cryst14121096 crossref_primary_10_3390_cryst15090789 crossref_primary_10_1117_1_JOM_4_3_031205 crossref_primary_10_3788_COL202422_082601 crossref_primary_10_1364_OE_563244 crossref_primary_10_1063_5_0255284 crossref_primary_10_1016_j_indcrop_2025_120991 crossref_primary_10_1007_s44374_024_00001_2 crossref_primary_10_1002_smll_202402116 crossref_primary_10_1063_5_0176144 crossref_primary_10_1039_D5MH01090J crossref_primary_10_1016_j_solmat_2025_113813 crossref_primary_10_1039_D4CC06658H crossref_primary_10_3788_PI_2024_R03 crossref_primary_10_1002_smtd_202401809 crossref_primary_10_1021_acsphotonics_4c01386 crossref_primary_10_1364_PRJ_545854 |
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| SubjectTerms | 132/122 140/125 639/624/399/1098 639/925/929 Brightness Coatings Color Coloring Data storage Harnesses Humanities and Social Sciences Iridescence Manufacturing Metamaterials multidisciplinary Optical coatings Optics Oxide coatings Photovoltaic cells Physics Purity Science Science (multidisciplinary) Solar energy Solar panels Steganography Thin films |
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| Title | Fano resonant optical coatings platform for full gamut and high purity structural colors |
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