Large-area flexible 2D-colloidal crystals produced directly using roll-to-roll processing

Large-area flexible 2D-colloidal crystals produced directly using roll-to-roll processing

[Display omitted] •Direct deposition of the SiO2 2D-colloidal crystal films by R2R.•Advances in colloidal lithography nanofabrication.•Large and continuous opalescent areas printed on a flexible substrate.•2D-colloidals crystals obtained by a scalable technique. We describe a direct deposition metho...

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Bibliographic Details
Published in:Colloids and surfaces. A, Physicochemical and engineering aspects Vol. 588; p. 124389
Main Authors: Cagnani, Giovana R., Spada, Edna R., Cagnani, Leonardo D., Torres, Bruno B.M., Balogh, Debora T., Bardosova, Maria, Faria, Roberto M.
Format: Journal Article
Language:English
Published: Elsevier B.V 05-03-2020
Subjects:
2D-colloidal crystals
Flexible substrate
Roll-to-roll
SiO2-nanosphere
Wire-bar
Flexible substrate
Wire-bar
Roll-to-roll
SiO2-nanosphere
2D-colloidal crystals
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Summary:[Display omitted] •Direct deposition of the SiO2 2D-colloidal crystal films by R2R.•Advances in colloidal lithography nanofabrication.•Large and continuous opalescent areas printed on a flexible substrate.•2D-colloidals crystals obtained by a scalable technique. We describe a direct deposition method for the manufacture of 2D-colloidal crystal films on flexible substrates using a roll-to-roll technique (R2R). Suspensions of silica (SiO2) particles in ethanol with different concentrations and particle sizes (diameters between 150 nm and 520 nm) were prepared and directly deposited onto PET, ITO/PET and stainless steel substrates via wire-bar R2R. We propose an empirical equation that allows one to predict an optimal concentration of the colloidal suspension as a function of the processing parameters necessary to produce a colloidal monolayer. We argue that the development of a R2R coating technique for the fabrication of 2D nanostructures can overcome some technological obstacles that currently hinder the development of printed photonics, nanofabrication and colloidal lithography.
ISSN:0927-7757
1873-4359
DOI:10.1016/j.colsurfa.2019.124389