Abstract: Low dielectric constant films with improved elastic modulus. An SiO2-containing plasma cured coating having a first dielectric constant and having a first elastic modulus is provided, the coating being formed by providing a porous network coating produced from a resin molecule containing at least 2 Si—H groups, and plasma curing the porous network coating to reduce an amount of Si—H bonds. Plasma curing of the network coating yields a coating with improved modulus, but with a higher dielectric constant. Accordingly, an SiO2-containing plasma cured coating is also provided, the coating being formed by annealing the plasma cured coating to produce an annealed, plasma cured coating having a second dielectric constant which is less than the first dielectric constant and having a second elastic modulus which is comparable to the first elastic modulus. The annealed, SiO2-containing plasma cured coating can have a dielectric constant between about 1.1 and about 3.

Abstract: Herein disclosed is a method for preparing a siloxane resin comprising HSiO3/2 siloxane units and containing silicon-bonded hydroxy groups in a range from 1 to 40 mole percent, which comprises: (A) combining an alkoxysilane of the formula HSi(OR)3 wherein R is selected from the group consisting of alkyl groups having 1 to 6 carbon atoms, water, an effective amount of an acid catalyst, and a first solvent, to form a reaction solution; and (B) reacting the reaction solution for a time and temperature sufficient to form the siloxane resin containing an alcohol.

Abstract: Low dielectric constant films with improved elastic modulus. The method of making such coatings involves providing a porous network coating produced from a resin containing at least 2 Si—H groups and plasma curing the coating to convert the coating into porous silica. Plasma curing of the network coating yields a coating with improved modulus, but with a higher dielectric constant. The costing is plasma cured for between about 15 and about 120 seconds at a temperature less than or about 350° C. The plasma cured coating can optionally be annealed. Rapid thermal processing (RTP) of the plasma cured coating reduces the dielectric constant of the coating while maintaining an improved elastic modulus as compared to the plasma cured porous network coating. The annealing temperature is typically loss than or about 475° C., and the annealing time is typically no more than or about 180 seconds. The annealed, plasma cured coating has a dielectric constant in the range of from about 1.1 to about 2.

Abstract: Low dielectric constant films with improved elastic modulus. The method of making such coatings involves providing a porous network coating produced from a resin containing at least 2 Si—H groups and plasma curing the coating to convert the coating into porous silica. Plasma curing of the network coating yields a coating with improved modulus, but with a higher dielectric constant. The coating is plasma cured for between about 15 and about 120 seconds at a temperature less than about 350° C. The plasma cured coating can optionally be annealed. Rapid thermal processing (RTP) of the plasma cured coating reduces the dielectric constant of the coating while maintaining an improved elastic modulus as compared to the plasma cured porous network coating. The annealing temperature is typically less than about 475° C., and the annealing time is typically no more than about 180 seconds. The annealed, plasma cured coating has a dielectric constant in the range of from about 1.1 to about 2.