Issue 23, 2019

Repeatable and metal-independent nanotransfer printing based on metal oxidation for plasmonic color filters

Abstract

Many recently developed nanotransfer printing techniques have received much attention because of their simplicity and low cost. In addition, such techniques are suitable for fabricating nano/microscale sensors, optical elements, and electrical devices. However, conventional nanotransfer printing methods are time-consuming, cannot be easily used over large areas or with several different materials, and are not suitable for repeatedly transferring various materials onto the same substrate or a curved surface. Herein, a new nanotransfer printing method is introduced based on the oxidation of various metals and the formation of covalent bonds between spin- and spray-coatable adhesives and the chosen metal at low temperatures. These strong covalent bonds allow the fast transfer of the deposited materials from a polymer stamp without additional processing. A major advantage of this process is that it is metal-independent; nanowires of various metals are successfully transferred from the polymer stamp because strong covalent bonds form instantaneously between the metal and an adhesive-coated substrate. Moreover, this nanotransfer process can be used repeatedly to fabricate large-scale color filters from smaller areas of nanowires, regardless of the metal type and nanostructure orientation. Furthermore, plasmonic color filters composed of nanohole arrays can be obtained on both flat and curved surfaces.

Graphical abstract: Repeatable and metal-independent nanotransfer printing based on metal oxidation for plasmonic color filters

Supplementary files

Article information

Article type
Paper
Submitted
07 Jan 2019
Accepted
25 Apr 2019
First published
26 Apr 2019

Nanoscale, 2019,11, 11128-11137

Repeatable and metal-independent nanotransfer printing based on metal oxidation for plasmonic color filters

S. H. Hwang, Z. Zhao, S. Jeon, H. Kang, J. Ahn and J. H. Jeong, Nanoscale, 2019, 11, 11128 DOI: 10.1039/C9NR00176J

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