	US 12,248,123 B2
	Methods of forming an antireflective layer on a complex substrate and complex substrates having the antireflective layer
Sin-Yen Leo, Gainesville, FL (US); Peng Jiang, Gainesville, FL (US); and Zhuxiao Gu, Gainesville, FL (US)
Assigned to University of Florida Research Foundation, INC., Gainesville, FL (US)
Appl. No. 16/764,735
Filed by University of Florida Research Foundation, Inc., Gainesville, FL (US)
PCT Filed Dec. 19, 2018, PCT No. PCT/US2018/066349 § 371(c)(1), (2) Date May 15, 2020, PCT Pub. No. WO2019/126245, PCT Pub. Date Jun. 27, 2019.
Claims priority of provisional application 62/607,987, filed on Dec. 20, 2017.
Prior Publication US 2021/0181381 A1, Jun. 17, 2021
Int. Cl. G02B 1/118 (2015.01); C03C 17/00 (2006.01); C03C 17/25 (2006.01); G02B 1/12 (2006.01)

CPC G02B 1/118 (2013.01) [C03C 17/004 (2013.01); C03C 17/005 (2013.01); C03C 17/25 (2013.01); G02B 1/12 (2013.01); C03C 2217/213 (2013.01); C03C 2217/732 (2013.01); C03C 2218/111 (2013.01); C03C 2218/115 (2013.01); C03C 2218/32 (2013.01)]

6 Claims

1. A structure comprising:

a durable antireflective layer disposed directly onto an inner surface and an outer surface of a substrate, wherein:

the substrate has a three-dimensional shape comprising one or more of a concave inner surface, a convex inner surface, and a polygonal inner surface and one or more of a concave outer surface, a convex outer surface, and a polygonal outer surface,

the inner surface of the substrate is functionalized to have a positive charge and the durable antireflective layer has a negative charge,

the durable antireflective layer is electrostatically adsorbed directly onto the inner surface,

the outer surface of the substrate is functionalized to have a positive charge and the durable antireflective layer has a negative charge,

the durable antireflective layer is electrostatically adsorbed directly onto the outer surface, and

the durable antireflective layer comprises a uniform monolayer of silica nanoparticles attached to one or more other silica nanoparticles by SiO₂, wherein the uniform monolayer of silica nanoparticles is bonded directly to the inner surface of the substrate surface via a covalent SiO₂-particle network, wherein the uniform monolayer of silica nanoparticles is bonded directly to the outer surface of the substrate surface via a covalent SiO₂-particle network, wherein the silica nanoparticles have a diameter of about 100 to 200 nm.