Abstract: Methods for depositing epitaxial films such as epitaxial Ge and SiGe films. During cooling from high temperature processing to lower deposition temperatures for Ge-containing layers, Si or Ge compounds are provided to the substrate. Smooth, thin, relatively defect-free Ge or SiGe layers result. Retrograded relaxed SiGe is also provided between a relaxed, high Ge-content seed layer and an overlying strained layer.

Abstract: Methods for depositing epitaxial films such as epitaxial Ge and SiGe films. During cooling from high temperature processing to lower deposition temperatures for Ge-containing layers, Si or Ge compounds are provided to the substrate. Smooth, thin, relatively defect-free Ge or SiGe layers result. Retrograded relaxed SiGe is also provided between a relaxed, high Ge-content seed layer and an overlying strained layer.

Abstract: Methods for depositing epitaxial films such as epitaxial Ge and SiGe films. During cooling from high temperature processing to lower deposition temperatures for Ge-containing layers, Si or Ge compounds are provided to the substrate. Smooth, thin, relatively defect-free Ge or SiGe layers result. Retrograded relaxed SiGe is also provided between a relaxed, high Ge-content seed layer and an overlying strained layer.

Abstract: A method of filling a conductive material in a three dimensional integration feature formed on a surface of a wafer is disclosed. The feature is optionally lined with dielectric and/or adhesion/barrier layers and then filled with a liquid mixture containing conductive precursor, such as a solution with dissolved ruthenium precursor or a dispersion or suspension with conductive particles (e.g., gold, silver, copper), and the substrate is rotated while the mixture is on its surface. Then, the liquid carrier is dried from the feature, leaving a conductive layer in the feature. These two steps are optionally repeated until the feature is filled up with the conductor. Then, the conductor is annealed in the feature, thereby forming a dense conductive plug in the feature.

Abstract: Disclosed herein is a method of cleaning oxide from a surface in the fabrication of an integrated device using reducing radicals and UV radiation. For silicon surfaces, the cleaning may be performed at a temperature at which a hydrogen-terminated passivated surface is stable, such that the surface remains protected after loading into the chamber until the cleaning is performed. Performing the cleaning at a lower temperature also consumes a reduced portion of the thermal budget of a semiconductor device. Epitaxial deposition can then be performed over the cleaned surface.

Abstract: An apparatus and method for processing a substrate is provided. The apparatus comprises a reaction chamber, a substrate holder within the chamber, and first and second injector components. The reaction chamber has an upstream end and a downstream end, between which the substrate holder is positioned. The substrate holder is configured to support a substrate so that the substrate is within a plane extending generally toward the upstream and downstream ends. The first injector component is at the upstream end of the chamber and is configured to inject a first thin gas curtain toward a substrate supported by the substrate holder. The first injector component is configured to inject the first curtain generally along a first plane that is parallel to a first side of the substrate. The second injector component is configured to inject a second thin gas curtain toward the first side of the substrate.

Abstract: Methods for depositing epitaxial films such as epitaxial Ge and SiGe films. During cooling from high temperature processing to lower deposition temperatures for Ge-containing layers, Si or Ge compounds are provided to the substrate. Smooth, thin, relatively defect-free Ge or SiGe layers result. Retrograded relaxed SiGe is also provided between a relaxed, high Ge-content seed layer and an overlying strained layer.

Abstract: An apparatus and method for processing a substrate is provided. The apparatus comprises a reaction chamber, a substrate holder within the chamber, and first and second injector components. The reaction chamber has an upstream end and a downstream end, between which the substrate holder is positioned. The substrate holder is configured to support a substrate so that the substrate is within a plane extending generally toward the upstream and downstream ends. The first injector component is at the upstream end of the chamber and is configured to inject a first thin gas curtain toward a substrate supported by the substrate holder. The first injector component is configured to inject the first curtain generally along a first plane that is parallel to a first side of the substrate. The second injector component is configured to inject a second thin gas curtain toward the first side of the substrate.

Abstract: Methods for depositing epitaxial films such as epitaxial Ge and SiGe films. During cooling from high temperature processing to lower deposition temperatures for Ge-containing layers, Si or Ge compounds are provided to the substrate. Smooth, thin, relatively defect-free Ge or SiGe layers result. Retrograded relaxed SiGe is also provided between a relaxed, high Ge-content seed layer and an overlying strained layer.

Abstract: Methods for depositing epitaxial films such as epitaxial Ge and SiGe films. During cooling from high temperature processing to lower deposition temperatures for Ge-containing layers, Si or Ge compounds are provided to the substrate. Smooth, thin, relatively defect-free Ge or SiGe layers result. Retrograded relaxed SiGe is also provided between a relaxed, high Ge-content seed layer and an overlying strained layer.

Abstract: An apparatus for developing a polymeric film without the need for a water rinse step is disclosed. An object having a surface supporting a polymeric film is placed onto a support region within a pressure chamber of the apparatus. A fluid and developer is introduced into the pressure chamber and the object is processed at supercritical conditions to develop the polymeric film such that the polymeric film is not substantially deformed. The pressure chamber is then vented.

Abstract: A method for forming strain-relaxed SiGe films comprises depositing a graded strained SiGe layer on a substrate in which the concentration of Ge is greater at the interface with the substrate than at the top of the layer. The strained SiGe film is subsequently oxidized, producing a strain-relaxed SiGe film with a substantially uniform Ge concentration across the thickness of the film. The relaxed SiGe layer may be used to form a strained silicon layer on a substrate.

Abstract: A method of forming an electronic component having elevated active areas is disclosed. The method comprises providing a semiconductor substrate in a processing chamber. The semiconductor substrate has disposed thereon a polycrystalline silicon gate and exposed active areas. The method further comprises performing a deposition process in which a silicon-source gas is supplied into the processing chamber to cause polycrystalline growth on the gate and epitaxial deposition on the active areas. The method further comprises performing a flash etch back process in which polycrystalline material is etched from the gate at a first etching rate and the epitaxial layer is etched from the active areas at a second etching rate. The first etching rate is faster than the second etching rate. The deposition process and the flash etch back process can be repeated cyclically, if desired.

Abstract: A method for drying an object, having a polymeric film, wherein the object is submerged in a rinse liquid. The object is removed from the rinse liquid and the object is placed in a solvent bath before a sufficient amount of the rinse liquid can evaporate from the object. The density of a solvent in the solvent bath depends on a direction of orientation of the polymeric film with respect to a force. The object is removed from the solvent bath. A drying process is performed.

Abstract: A method of developing a polymeric film without the need for a water rinse step. An object having a surface supporting a polymeric film is placed onto a support region within a pressure chamber. A fluid and developer is introduced into the pressure chamber and the object is processed at supercritical conditions to develop the polymeric film such that the polymeric film is not substantially deformed. The pressure chamber is then vented.

Abstract: A method for forming strain-relaxed SiGe films comprises depositing a graded strained SiGe layer on a substrate in which the concentration of Ge is greater at the interface with the substrate than at the top of the layer. The strained SiGe film is subsequently oxidized, producing a strain-relaxed SiGe film with a substantially uniform Ge concentration across the thickness of the film. The relaxed SiGe layer may be used to form a strained silicon layer on a substrate.

Abstract: Methods for depositing epitaxial films such as epitaxial Ge and SiGe films. During cooling from high temperature processing to lower deposition temperatures for Ge-containing layers, Si or Ge compounds are provided to the substrate. Smooth, thin, relatively defect-free Ge or SiGe layers result. Retrograded relaxed SiGe is also provided between a relaxed, high Ge-content seed layer and an overlying strained layer.

Abstract: A method of forming an electronic component having elevated active areas is disclosed. The method comprises providing a semiconductor substrate in a processing chamber. The semiconductor substrate has disposed thereon a polycrystalline silicon gate and exposed active areas. The method further comprises performing a deposition process in which a silicon-source gas is supplied into the processing chamber to cause polycrystalline growth on the gate and epitaxial deposition on the active areas. The method further comprises performing a flash etch back process in which polycrystalline material is etched from the gate at a first etching rate and the epitaxial layer is etched from the active areas at a second etching rate. The first etching rate is faster than the second etching rate. The deposition process and the flash etch back process can be repeated cyclically, if desired.

Abstract: A method of cleaning a surface of an object is disclosed. The object is placed onto a support region within a pressure chamber. The pressure chamber is then pressurized. A cleaning process is performed. A series of decompression cycles are performed. The pressure chamber is then vented.

Abstract: A method for drying an object, having a polymeric film, wherein the object is submerged in a rinse liquid. The object is removed from the rinse liquid and the object is placed in a solvent bath before a sufficient amount of the rinse liquid can evaporate from the object. The density of a solvent in the solvent bath depends on a direction of orientation of the polymeric film with respect to a force. The object is removed from the solvent bath. A drying process is performed.