2022
DOI: 10.1117/1.apn.1.2.026002
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Centimeter scale color printing with grayscale lithography

Abstract: Structural color from artificial structures, due to its environmental friendliness and excellent durability, represents a route for color printing applications. Among various physical mechanisms, the Fabry-Perot (F-P) cavity effect provides a powerful way to generate vivid colors in either the reflection or transmission direction. Most of the previous F-P type color printing works rely on electron beam grayscale lithography, however, with this technique it is challenging to make large-area and low-cost devices… Show more

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Cited by 7 publications
(5 citation statements)
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References 33 publications
(40 reference statements)
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“…In recent years, in addition to the mentioned standard nanolithography techniques such as EBL, FIB, and laser-based lithography, innovative lithography methods have been well developed. These updated methods are based on the combination of EBL, FIB, and LDW, and they include grayscale lithography [217][218][219][220] , multistep lithography [221][222][223][224][225] , and the novel fabrication of scanning probe lithography (SPL) based on the atomic force microscope, which is also studied in dielectric metasurface (d) Mie-resonant silicon-based metasurfaces via single-pulse LIL: Schematic (left) illustrating the four-beam interference setup and the resulting intensity distribution. Mechanism of silicon transformation (middle) utilizing the interference intensity pattern.…”
Section: Advanced Nanolithography Techniquesmentioning
confidence: 99%
See 1 more Smart Citation
“…In recent years, in addition to the mentioned standard nanolithography techniques such as EBL, FIB, and laser-based lithography, innovative lithography methods have been well developed. These updated methods are based on the combination of EBL, FIB, and LDW, and they include grayscale lithography [217][218][219][220] , multistep lithography [221][222][223][224][225] , and the novel fabrication of scanning probe lithography (SPL) based on the atomic force microscope, which is also studied in dielectric metasurface (d) Mie-resonant silicon-based metasurfaces via single-pulse LIL: Schematic (left) illustrating the four-beam interference setup and the resulting intensity distribution. Mechanism of silicon transformation (middle) utilizing the interference intensity pattern.…”
Section: Advanced Nanolithography Techniquesmentioning
confidence: 99%
“…In recent years, in addition to the mentioned standard nanolithography techniques such as EBL, FIB, and laser-based lithography, innovative lithography methods have been well developed. These updated methods are based on the combination of EBL, FIB, and LDW, and they include grayscale lithography [217220] , multistep lithography [221225] , and the novel fabrication of scanning probe lithography (SPL) based on the atomic force microscope, which is also studied in dielectric metasurface fabrication [226,227] . These approaches provide avenues for designing and fabricating more intricate nanostructures.…”
Section: Nanofabrication Techniques Of All-dielectric Metasurfacesmentioning
confidence: 99%
“…As micro/nano structural components with continuous surfaces, fabrication technologies for microlens arrays include laser direct writing [4][5][6], multi-layer etching [7,8], grayscale lithography [9][10][11], 3D printing technology [12][13][14], and mask-moving technologies [15]. Direct writing technology offers a high precision and resolution but is costly and less efficient, so it is unsuitable for mass fabrication or fabrication of large-sized micro-optical elements.…”
Section: Introductionmentioning
confidence: 99%
“…The inherent loss of plasma in the metal surface plasmon resonance (SPR) significantly limits the saturation and brightness of the resulting structural colors [9]. The Fabry-Perot color filters [10,11], due to their potential for enhancing color purity and gamut, have been the subject of extensive investigations by numerous scholars. Additionally, the use of dielectric nanostructures [12] [15,32,[36][37][38][39][40][41][42][43][44] 573 823 1.7~2 80 × 10 −9 >7000 0.87 0.56 1.55 This paper introduces Sb 2 S 3 as a potential PCM for optical applications.…”
Section: Introductionmentioning
confidence: 99%