Abstract: Anti-reflective coating materials for ultraviolet photolithography include at least one absorbing compound and at least one material modification agent, such as at least one porogen, at least one high-boiling solvent, at least one capping agent, at least one leveling agent, at least one catalyst, at least one replacement solvent, at least one pH tuning agent, and/or a combination thereof that are incorporated into inorganic-based materials or inorganic compositions and/or compounds.

Abstract: The invention relates to low temperature curable spin-on glass materials which are useful for electronic applications, such as optical devices. A substantially crack-free and substantially void-free silicon polymer film is produced by (a) preparing a composition comprising at least one silicon containing pre-polymer, a catalyst, and optionally water; (b) coating a substrate with the composition to form a film on the substrate, (c) crosslinking the composition by heating to produce a substantially crack-free and substantially void-free silicon polymer film, having a a transparency to light in the range of about 400 nm to about 800 nm of about 95% or more.

Abstract: The invention relates to low temperature curable spin-on glass materials which are useful for electronic applications, such as optical devices. A substantially crack-free and substantially void-free silicon polymer film is produced by (a) preparing a composition comprising at least one silicon containing pre-polymer having at least one organic group, a catalyst, and optionally water; (b) coating a substrate with the composition to form a film on the substrate, (c) crosslinking the composition by heating the composition at a temperature of about 250° C. or less for about 30 minutes or less, to produce a substantially crack-free and substantially void-free silicon polymer film, which silicon polymer has a weight ratio of organic groups to SiO groups of about 0.15:1 or more, and which silicon containing polymer film has a field breakdown voltage of about 2.5 MV/cm or more and a transparency to light in the range of about 400 nm to about 700 nm of about 95% or more.

Abstract: The present invention relates to semiconductor device fabrication and more specifically to a method and material for forming high density shallow trench isolation structures in integrated circuits capable of withstanding wet etch treatments. A silica dielectric film is formed on a substrate. The silica dielectric film has a density of from about 1.0 to about 2.3 g/ml, a SiC:SiO bond ratio of about 0.015 or more, a dielectric constant of about 4.0 or less, a breakdown voltage of about 2 MV/cm or more, and a wet etch resistance in a 100:1 by volume mixture of water and hydrogen fluoride of about 30 ?/minute or less.