2017
DOI: 10.1088/1361-6528/aa5f2b
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Filling schemes of silver dots inkjet-printed on pixelated nanostructured surfaces

Abstract: Recently, our group demonstrated an inkjet-based technique to enable high-throughput, versatile and full-colour printing of structural colours on generic pixelated nanostructures, termed as molded ink on nanostructured surfaces. The printed colours are controlled by the area of printed silver on the pixelated red, green and blue polymer nanostructure arrays. This paper investigates the behaviour of jetted silver ink droplets on nanostructured surfaces and the microscale dot patterns implemented during printing… Show more

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Cited by 9 publications
(14 citation statements)
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“…As determined from digital image processing, when printed at full ink density, the actual filling ratio on the red, green, and blue grating surface is about 29%, 40%, and 39%, respectively. As studied in our previous work, dot merging can cause randomness in the filling ratio and thus affects the accuracy of the pixel brightness . When printed with denser ink droplets, the negative effect of merging is more pronounced.…”
Section: Resultsmentioning
confidence: 78%
See 3 more Smart Citations
“…As determined from digital image processing, when printed at full ink density, the actual filling ratio on the red, green, and blue grating surface is about 29%, 40%, and 39%, respectively. As studied in our previous work, dot merging can cause randomness in the filling ratio and thus affects the accuracy of the pixel brightness . When printed with denser ink droplets, the negative effect of merging is more pronounced.…”
Section: Resultsmentioning
confidence: 78%
“…Recent years have witnessed tremendous progress in generating colors from artificial nanostructures, a field known as structural color printing. Various structural coloration mechanisms based on interaction of light with optical nanostructures have been intensively studied and demonstrated, for example, plasmonic colors from metal nanostructures, colors originating from optical resonances in dielectric metasurfaces, reflective colors from photonic crystals, diffractive colors from nanostructure arrays, and interference colors in thin films. Compared to conventional coloration approaches based on dyes or pigments, structural color printing has appealing advantages: structural colors can be patterned in ultrahigh resolution, with the smallest pixels in subwavelength scale; , structural color printing usually implements metals and dielectric materials that are environmentally friendly; since the colors are generated from physical structures, structural colors are usually very resistant to fading. , …”
mentioning
confidence: 99%
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“…131 Inkjet printing will be a low-cost tool for rapid manufacturing of exible electronic devices. 132,133 Various types of conducting inks have been used for the inkjet printing process, including photonic crystals, 134 metal NPs, [135][136][137][138][139][140][141][142] graphene, [143][144][145][146][147][148][149] and polymers. 150,151 Li et al 127 fabricated metal oxide thin-lm transistors (MO-TFTs) by the inkjet printing method without using photolithography.…”
Section: Inkjet-printed Nanomaterials For Flexible Electronicsmentioning
confidence: 99%