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Published June 1, 2018 | Version v1
Journal article Open

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

Description

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.

Files

Single-imprint moth-eye anti-reflective and self cleaning film wwith enhanced resistance ESI.pdf

Additional details

Funding

NANOLEAP – “Nanocomposite for building constructions and civil infraestructures: European network pilot production line to promote industrial application cases.” 646397
European Commission