A surface coating material includes a plurality of fluorine-containing silicon compounds and an additive. The fluorine-containing silicon compounds include a fluorine-containing (poly)ether moiety, a hydrolytic silane moiety, and a linking group between the fluorine-containing (poly)ether moiety and the hydrolytic silane moiety. The linking group is configured to form a non-covalence interaction between adjacent molecules.

A surface coating material includes a plurality of fluorine-containing silicon compounds and an additive. The fluorine-containing silicon compounds include a fluorine-containing (poly)ether moiety, a hydrolytic silane moiety, and a linking group between the fluorine-containing (poly)ether moiety and the hydrolytic silane moiety. The linking group is configured to form a non-covalence interaction between adjacent molecules.

The present invention addresses the problem of providing a transparent article in which sparkling on an anti-glare surface or other roughened relief surface is suppressed. The transparent article is provided with a transparent substrate, and a roughened relief surface provided to at least one surface of the transparent substrate. The relief surface has a surface roughness Sq of 50 nm or less measured in a spatial period of 20 μm or greater in the transverse direction.

Due to the increased glazed area of modern vehicles, especially the large panoramic glass roofs, we have seen a substantial growth in the use of anti-reflective coatings. Unfortunately, these types of coatings accentuate fingerprints and smudges. The invention provides an automotive glazing which is substantially resistant to fingerprints, and a method of manufacture thereof through the application of an anti-fingerprint coating based on low surface energy silanes.

A method of making a mirror for use with extreme ultraviolet (EUV) or X-ray radiation is disclosed. The method includes: a) providing an optical element having a curved mirror surface, wherein the curved mirror surface comprises localized defects that degrade performance of the curved mirror surface; b) spin-coating the curved mirror surface with a material to cover at least some of the defects; and c) curing the spin-coated material on the curved mirror surface to reduce the number of defects and improve the performance of the curved mirror surface. Also disclosed is a mirror made by the method.

A surface coating material includes a first material and a second material having a different structure. The first material includes a linking group represented by *—(CF.sub.2).sub.nO—* between two terminal ends, where one terminal end is a trifluoroalkoxy group and another terminal end is a silane group. The second material includes an oxyalkylene group or a *—NH—* linking group between two terminal ends, where one terminal end is an alkoxy group or an amino group, and another terminal end is a silane group. The first material is included in the surface coating material in an amount of less than or equal to about 5 mol % relative to a total amount (100 mol %) of the first material and the second material in the surface coating material.

A surface coating material includes a first material and a second material having a different structure. The first material includes a linking group represented by *—(CF.sub.2).sub.nO—* between two terminal ends, where one terminal end is a trifluoroalkoxy group and another terminal end is a silane group. The second material includes an oxyalkylene group or a *—NH—* linking group between two terminal ends, where one terminal end is an alkoxy group or an amino group, and another terminal end is a silane group. The first material is included in the surface coating material in an amount of less than or equal to about 5 mol % relative to a total amount (100 mol %) of the first material and the second material in the surface coating material.

A carrier for delivering powder materials includes a microsphere, such as a glass microbead, bead and a coating provided on the glass microbead. If the powder material is an inorganic powder, the coating is preferably a dipodal polysiloxane. If the powder material is an organic powder, the coating is preferably vinyl polysiloxane. The microsphere carrier provides a controlled distribution of the powder material for industrial and other applications.

A carrier for delivering powder materials includes a microsphere, such as a glass microbead, bead and a coating provided on the glass microbead. If the powder material is an inorganic powder, the coating is preferably a dipodal polysiloxane. If the powder material is an organic powder, the coating is preferably vinyl polysiloxane. The microsphere carrier provides a controlled distribution of the powder material for industrial and other applications.

A silicone coating is provided for glass and other surfaces with improved glass clarity and maintenance requirements. In addition, a process for preparing a film with improved glass clarity and maintenance requirements. Further a method is provided for adhering an improved coating to a glass (or other) surface. Also a silicone coating is provided for granite, cement, and lexan/plastic.