2022
DOI: 10.1002/lpor.202200394
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Extremely‐Fine Color Printing by 2D Materials with the Synergetic Effects of Fabry–Pérot Cavity and Exciton Absorption

Abstract: Structural colors based on plasmonic and dielectric nanostructures have become attractive alternatives over adsorbed dyes or pigments in high resolution color printing. The color resolution is determined by the fine‐tuning in optical resonance peak of the nanoresonators, and is strongly restricted by the limited geometrical dimensions. Here, 2D materials including MoS2 and GaSe are demonstrated as unique materials which generate full color gamut, vivid, and extremely‐fine tuning colors. Attributed to the atomi… Show more

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“…Due to the strong modulation effect of SPR on electromagnetic waves, there have been numerous reports of high spatial resolution color filters based on SPR [49,85,86] . In addition to classical plasmonic metasurfaces, researchers have also designed new nanostructures such as gap plasmons [87] and Fabry-Pérot (FP) cavities [8890] , and this section will briefly discuss them.…”
Section: Static Structural Colorsmentioning
confidence: 99%
“…Due to the strong modulation effect of SPR on electromagnetic waves, there have been numerous reports of high spatial resolution color filters based on SPR [49,85,86] . In addition to classical plasmonic metasurfaces, researchers have also designed new nanostructures such as gap plasmons [87] and Fabry-Pérot (FP) cavities [8890] , and this section will briefly discuss them.…”
Section: Static Structural Colorsmentioning
confidence: 99%