Abstract: A system and method for forming a mechanically strengthened low-k dielectric film on a substrate includes using either spin-on-dielectric (SOD) techniques, or chemical vapor deposition (CVD) techniques to form a low-k dielectric film on the substrate. An upper surface of the low-k dielectric film is then treated in order to increase the film's mechanical strength, or reduce its dielectric constant.

Abstract: The present invention features a method of patterning a substrate that includes forming from a first material, disposed on the substrate, a first film having an original pattern that includes a plurality of projections. The projections extend from a nadir surface terminating in an apex surface defining a height therebetween. A portion of the first film in superimposition with the nadir surface defines a nadir portion. The nadir portion is removed to expose a region of the substrate in superimposition therewith, defining a plurality of recessions. A second material is disposed upon the first film to form a second film having a surface spaced-apart from the apex surface of the plurality of projections and filling the plurality of recessions to form a multi-film stack. The first film and portions of the second film are removed to create a plurality of spaced-apart projections of the second material on the substrate.

Abstract: The present invention features a method of patterning a substrate that includes forming from a first material, disposed on the substrate, a first film having an original pattern that includes a plurality of projections. The projections extend from a nadir surface terminating in an apex surface defining a height therebetween. A portion of the first film in superimposition with the nadir surface defines a nadir portion. The nadir portion is removed to expose a region of the substrate in superimposition therewith, defining a plurality of recessions. A second material is disposed upon the first film to form a second film having a surface spaced-apart from the apex surface of the plurality of projections and filling the plurality of recessions to form a multi-film stack. The first film and portions of the second film are removed to create a plurality of spaced-apart projections of the second material on the substrate.

Abstract: A system and method for forming a mechanically strengthened low-k dielectric film on a substrate includes using either spin-on-dielectric (SOD) techniques, or chemical vapor deposition (CVD) techniques to form a low-k dielectric film on the substrate. An upper surface of the low-k dielectric film is then treated in order to increase the film's mechanical strength, or reduce its dielectric constant.

Abstract: A planarizing technique comprising: coating a topography overlying a substrate with a planarizing resist layer; softbaking the planarizing resist layer in the presence of a silicon-containing vapor or liquid; coating the planarizing resist layer with an imaging resist layer; softbaking the imaging resist; selectively exposing the imaging resist layer to light; developing the imaging resist layer; and etching the planarizing layer. The planarizing layer may comprise novolacs and other organic polymers used conventionally in lithographic processes. The planarizing layer may further comprise any organic acid moiety that is compatible with the solvent used to dissolve the resin. In particular, the acid moiety is indole-3-carboxylic acid. In another aspect, the invention comprises a silylated planarizing resist.

Abstract: A planarizing technique comprising: coating a topography overlying a substrate with a planarizing resist layer; softbaking the planarizing resist layer in the presence of a silicon-containing vapor or liquid; coating the planarizing resist layer with an imaging resist layer; softbaking the imaging resist; selectively exposing the imaging resist layer to light; developing the imaging resist layer; and etching the planarizing layer. The planarizing layer may comprise novolacs and other organic polymers used conventionally in lithographic processes. Specifically, the polymer is selected from the group consisting of a novolac, polymethylmethacrylate, polydimethylglutarimide and polyhydroxystyrene. The planarizing layer may further comprise any organic acid moiety that is compatible with the solvent used to dissolve the resin. In particular, the acid moiety is indole-3-carboxylic acid. In another aspect, the invention comprises a silylated planarizing resist.

Abstract: Sub-micron features are defined photo-lithographically by combining phase-shifting techniques with conventional photo lithographic techniques. In a first step, phase-shifting edges are defined in a photoresist layer. Dark-bands develop at the phase-shifting edges due to wavefront interference of an illuminating radiation in a subsequent exposure step. Development leaves behind sub-micron sections of photoresist which were covered by the dark-band regions. The dark-band sections are hardened and overcoated with a new layer of photoresist. A second pattern is projected onto the second layer of photoresist using conventional techniques. The second pattern is developed so as to create features having dimensions reduced by parts of the dark-band sections previously developed.

Abstract: The invention provides a trilayer structure and photolithographic method which permits use of high-resolution optics with a relatively small depth of focus for patterning a substrate. A trilayer lithographic structure in accordance with the invention comprises: (a) an out-gas resistant planarization layer deposited on a substrate; (b) a chemical-vapor-deposited interfacial film formed on the planarization layer; and (c) a photosensitive resist layer of a thickness equal to or less than one micron deposited on the interfacial film. A method in accordance with the invention comprises the steps of: (a) depositing an out-gas resistant planarization layer on a substrate; (b) chemical-vapor-depositing an interfacial film on the planarization layer; and (c) forming a photosensitive resist layer of a thickness equal to or less than one micron on the interfacial film.

Abstract: The invention is for a developer for a bilayer photoresist film comprising a first relatively thick layer of a polyglutarimide and a second relatively thin layer of a diazo sensitized novolak resin. The developer is an aqueous solution of a tetra alkyl ammonium hydroxide where at least two of the alkyl groups have two or more carbon atoms. The developer of the invention permits development of the bottom resist layer without erosion of the top resist layer.