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Highly Conductive and Transparent Coatings from Flow-aligned Silver Nanowires with Large Electric and Optical Anisotropy

Abstract

Conductive and transparent coatings consisting of silver nanowires (AgNWs) are promising candidates for emerging flexible electronics applications. Coatings of aligned AgNWs offer unusual electronic and optical anisotropies, with potential for micro-circuits, antennas, and polarization sensors. Here we explore a microfluidics setup and flow-induced alignment mechanisms to create centimeter-scale highly conductive coatings of aligned AgNWs with order parameters reaching 0.84, leading to large electrical and optical anisotropy. By varying flow rates, we establish the relation between the shear rate and the alignment and investigate possible alignment mechanisms. The angle-dependent sheet resistance of the aligned AgNW networks exhibits an electronic transport anisotropy of ~10x while maintaining low resistivity (<50Ω/sq) in all directions. When illuminated, the aligned AgNW coatings exhibit angle- and polarization-dependent color, and the polarized reflection anisotropy can be as large as 25. This large optical anisotropy is due to a combination of alignment, polarization response, and angle-dependent scattering of the aligned AgNWs.

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Supplementary files

Article information


Submitted
11 Nov 2019
Accepted
13 Feb 2020
First published
14 Feb 2020

Nanoscale, 2020, Accepted Manuscript
Article type
Paper

Highly Conductive and Transparent Coatings from Flow-aligned Silver Nanowires with Large Electric and Optical Anisotropy

Y. Xu, D. Ge, G. A. Calderon-Ortiz, A. L. Exarhos, C. Bretz, A. Alsayed, D. Kurz, J. M. Kikkawa, R. Dreyfus, S. Yang and A. Yodh, Nanoscale, 2020, Accepted Manuscript , DOI: 10.1039/C9NR09598E

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