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Paper detail

Full-Spectrum Flexible Color Printing at the Diffraction Limit

Color printing at the diffraction limit has been recently explored by fabricating nanoscale plasmonic structures with electron beam lithography. However, only a limited color range and constant intensity throughout the structure have been demonstrated. Here we show an alternative, facile approach relying on the direct, open-atmosphere electrohydrodynamic rapid nanodrip printing of controlled amounts of red, green and blue (RGB) quantum dots at a resolution of 250 nm. The narrow emission spectrum of the dots allows the coverage of a very broad color space, exceeding standard RGB (sRGB) of modern display devices. We print color gradients of variable intensity, which to date could not be achieved with diffraction-limited resolution. Showcasing the capabilities of the technology, we present a photo-realistic printed image of a colorful parrot with a pixel size of 250 nm.

preprint2016arXivOpen access
Patrizia RichnerPatrick GallikerTobias LendenmannStephan J. P. KressDavid K. KimDavid J. NorrisDimos Poulikakos
cond-mat.mtrl-sciphysics.optics
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Patrizia RichnerPatrick GallikerTobias LendenmannStephan J. P. KressDavid K. KimDavid J. NorrisDimos Poulikakos

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