Large-area patterning for broadband, quasi-omnidirectional low-reflectance glass

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Jennings, Brian D., Gatensby, Riley, Giraud, Elsa C., Selkirk, Andrew, Mir, Sajjad Husain, Mokarian-Tabari, Parvaneh, Large-area patterning for broadband, quasi-omnidirectional low-reflectance glass, Journal of Micromechanics and Microengineering, 2022, 32, 8, 085009

Abstract

A method for producing large-area, broadband, quasi-omnidirectional low-reflectivity glass surfaces is presented. Using block copolymer (BCP) patterning and inductively coupled plasma etching, near- periodic arrays of pillars are formed in glass. The patterned surface has reflectivity <0.5%—almost an order of magnitude smaller than plain glass—with a bandwidth of ~300 nm. Substrates etched on both sides transmit >99.5% across the wavelength range 850–1200 nm, with >99% down to λ = 650 nm. The process is demonstrated on a 5 cm diameter fused silica wafer and high transmittance is maintained up to at least 70◦ incidence. The resulting substrates might find application as lab optics (windows, lenses, etc.) display screens for televisions, computers, phones, and as encapsulants for optoelectronic devices.

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Sponsor: Enterprise Ireland
Grant Number: CF-2017-0638

Sponsor: Marie Curie
Grant Number: 713567

Sponsor: Science Foundation Ireland (SFI for RF)
Grant Number: 12/RC/2278_P2

Type of material: Journal Article