High-Efficiency Omnidirectional Broadband Light-Management Coating Using the Hierarchical Ordered-Disordered Nanostructures with Ultra-Mechanochemical Resistance
Document Type
Article
Publication Date
3-11-2019
Publication Title
ACS Applied Materials and Interfaces
Volume
11
Issue
13
First page number:
12978
Last page number:
12885
Abstract
High-efficient light-management nanostructures are critical to various optical applications. However, in practical implementation, these structures have been limited by the need to resist mechanical abrasion, erosion, chemical exposure, ultraviolet radiation, and performance deterioration by dust accumulation. To address these critical technological gaps, we herein report a conceptually different approach, employing a hierarchical nanostructure embedded with multilayer LightScribe-etched graphene, capable of omnidirectional broadband light management with both high optical transparency... (see abstract in article).
Keywords
Durability; LightScribe-etched graphene; Multifunctionality; Omnidirectional light management; Ordered−disordered nanostructures
Disciplines
Applied Mechanics | Mechanical Engineering
Language
English
Repository Citation
Zhai, S.,
Zhao, Y.,
Zhao, H.
(2019).
High-Efficiency Omnidirectional Broadband Light-Management Coating Using the Hierarchical Ordered-Disordered Nanostructures with Ultra-Mechanochemical Resistance.
ACS Applied Materials and Interfaces, 11(13),
12978-12885.
http://dx.doi.org/10.1021/acsami.9b00034