Colored thermal camouflage and anti-counterfeiting with programmable In3SbTe2 platform

Camouflage is an important technology in various scenarios. Usually, this involves the visible compatibility of the background, which however is facile under infrared thermal radiation detection. The simultaneous visible and thermal camouflage are challenging because it requires full and decoupled m...
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Autor*in:	Zhou Sihong [verfasserIn] Dong Shikui [verfasserIn] Guo Yanming [verfasserIn] Shuai Yong [verfasserIn] Xu He-Xiu [verfasserIn] Hu Guangwei [verfasserIn]

Format:	E-Artikel
Sprache:	Englisch

Erschienen:	2024

Schlagwörter:	ist phase change material industry-friendly platform resonance mode coupling vis-ir compatible camouflage thermal anti-counterfeiting

Übergeordnetes Werk:	In: Nanophotonics - De Gruyter, 2016, 13(2024), 6, Seite 945-954
Übergeordnetes Werk:	volume:13 ; year:2024 ; number:6 ; pages:945-954

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.1515/nanoph-2023-0924

Katalog-ID:	DOAJ092456901

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520			\|a Camouflage is an important technology in various scenarios. Usually, this involves the visible compatibility of the background, which however is facile under infrared thermal radiation detection. The simultaneous visible and thermal camouflage are challenging because it requires full and decoupled manipulations of visible reflection and infrared emissivity using one single device, let alone to its adaptivity to complex environments. Here, we report a programmable, colored thermal camouflage at 3–5 μm and 8–14 μm based on mode coupling in phase-change In3SbTe2 materials. A series of industry-friendly colored multilayer thermal emitters are designed consisting of an anti-reflectance layer for structure coloration above a coupled nanocavity for IR modulation, which easily realizes the complete decoupled control of visible color and infrared emissivity. Our solution features independent structural visible colors in the full visible range and continuously programmable dual-band emissivity modulation with up to 90 % absolute tuning range. Our work facilitates near optimal camouflage and anti-counterfeiting solution for visible-infrared multi-band compatibility of complex environments under different temperatures and colored appearances.
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topic_facet	ist phase change material industry-friendly platform resonance mode coupling vis-ir compatible camouflage thermal anti-counterfeiting Physics
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container_title	Nanophotonics
authorswithroles_txt_mv	Zhou Sihong @@aut@@ Dong Shikui @@aut@@ Guo Yanming @@aut@@ Shuai Yong @@aut@@ Xu He-Xiu @@aut@@ Hu Guangwei @@aut@@
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callnumber-first	Q - Science
author	Zhou Sihong
spellingShingle	Zhou Sihong misc QC1-999 misc ist phase change material misc industry-friendly platform misc resonance mode coupling misc vis-ir compatible camouflage misc thermal anti-counterfeiting misc Physics Colored thermal camouflage and anti-counterfeiting with programmable In3SbTe2 platform
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topic_title	QC1-999 Colored thermal camouflage and anti-counterfeiting with programmable In3SbTe2 platform ist phase change material industry-friendly platform resonance mode coupling vis-ir compatible camouflage thermal anti-counterfeiting
topic	misc QC1-999 misc ist phase change material misc industry-friendly platform misc resonance mode coupling misc vis-ir compatible camouflage misc thermal anti-counterfeiting misc Physics
topic_unstemmed	misc QC1-999 misc ist phase change material misc industry-friendly platform misc resonance mode coupling misc vis-ir compatible camouflage misc thermal anti-counterfeiting misc Physics
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title	Colored thermal camouflage and anti-counterfeiting with programmable In3SbTe2 platform
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title_sort	colored thermal camouflage and anti-counterfeiting with programmable in3sbte2 platform
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title_auth	Colored thermal camouflage and anti-counterfeiting with programmable In3SbTe2 platform
abstract	Camouflage is an important technology in various scenarios. Usually, this involves the visible compatibility of the background, which however is facile under infrared thermal radiation detection. The simultaneous visible and thermal camouflage are challenging because it requires full and decoupled manipulations of visible reflection and infrared emissivity using one single device, let alone to its adaptivity to complex environments. Here, we report a programmable, colored thermal camouflage at 3–5 μm and 8–14 μm based on mode coupling in phase-change In3SbTe2 materials. A series of industry-friendly colored multilayer thermal emitters are designed consisting of an anti-reflectance layer for structure coloration above a coupled nanocavity for IR modulation, which easily realizes the complete decoupled control of visible color and infrared emissivity. Our solution features independent structural visible colors in the full visible range and continuously programmable dual-band emissivity modulation with up to 90 % absolute tuning range. Our work facilitates near optimal camouflage and anti-counterfeiting solution for visible-infrared multi-band compatibility of complex environments under different temperatures and colored appearances.
abstractGer	Camouflage is an important technology in various scenarios. Usually, this involves the visible compatibility of the background, which however is facile under infrared thermal radiation detection. The simultaneous visible and thermal camouflage are challenging because it requires full and decoupled manipulations of visible reflection and infrared emissivity using one single device, let alone to its adaptivity to complex environments. Here, we report a programmable, colored thermal camouflage at 3–5 μm and 8–14 μm based on mode coupling in phase-change In3SbTe2 materials. A series of industry-friendly colored multilayer thermal emitters are designed consisting of an anti-reflectance layer for structure coloration above a coupled nanocavity for IR modulation, which easily realizes the complete decoupled control of visible color and infrared emissivity. Our solution features independent structural visible colors in the full visible range and continuously programmable dual-band emissivity modulation with up to 90 % absolute tuning range. Our work facilitates near optimal camouflage and anti-counterfeiting solution for visible-infrared multi-band compatibility of complex environments under different temperatures and colored appearances.
abstract_unstemmed	Camouflage is an important technology in various scenarios. Usually, this involves the visible compatibility of the background, which however is facile under infrared thermal radiation detection. The simultaneous visible and thermal camouflage are challenging because it requires full and decoupled manipulations of visible reflection and infrared emissivity using one single device, let alone to its adaptivity to complex environments. Here, we report a programmable, colored thermal camouflage at 3–5 μm and 8–14 μm based on mode coupling in phase-change In3SbTe2 materials. A series of industry-friendly colored multilayer thermal emitters are designed consisting of an anti-reflectance layer for structure coloration above a coupled nanocavity for IR modulation, which easily realizes the complete decoupled control of visible color and infrared emissivity. Our solution features independent structural visible colors in the full visible range and continuously programmable dual-band emissivity modulation with up to 90 % absolute tuning range. Our work facilitates near optimal camouflage and anti-counterfeiting solution for visible-infrared multi-band compatibility of complex environments under different temperatures and colored appearances.
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title_short	Colored thermal camouflage and anti-counterfeiting with programmable In3SbTe2 platform
url	https://doi.org/10.1515/nanoph-2023-0924 https://doaj.org/article/31b0bb58ea7e4fb58b9c4d46f006981a https://doaj.org/toc/2192-8614
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