Issue 33, 2018

Single-imprint moth-eye anti-reflective and self-cleaning film with enhanced resistance

Abstract

Antireflective transparent materials are essential for a myriad of applications to allow for clear vision and efficient light transmission. Despite the advances, efficient and low cost solutions to clean antireflective surfaces have remained elusive. Here, we present a practical approach that enables the production of antireflective polymer surfaces based on moth-eye inspired features incorporating photoinduced self-cleaning properties and enhanced mechanical resistance. The methodology involves the fabrication of sub-wavelength moth-eye nanofeatures onto transparent surface composite films in a combined processing step of nanoparticle coating and surface nanoimprinting. The resulting surfaces reduced the optical reflection losses from values of 9% of typical PMMA plastic films to an optimum value of 0.6% in the case of double-sided moth-eye nanoimprinted films. The composite moth-eye topography also showed an improved stiffness and scratch resistance. This technology represents a significant advancement not limited by scale, for the development of antireflective films for low cost application products.

Graphical abstract: Single-imprint moth-eye anti-reflective and self-cleaning film with enhanced resistance

Supplementary files

Article information

Article type
Paper
Submitted
22 Mar 2018
Accepted
02 May 2018
First published
01 Jun 2018
This article is Open Access
Creative Commons BY license

Nanoscale, 2018,10, 15496-15504

Single-imprint moth-eye anti-reflective and self-cleaning film with enhanced resistance

I. Navarro-Baena, A. Jacobo-Martín, J. J. Hernández, J. R. Castro Smirnov, F. Viela, M. A. Monclús, M. R. Osorio, J. M. Molina-Aldareguia and I. Rodríguez, Nanoscale, 2018, 10, 15496 DOI: 10.1039/C8NR02386G

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