Abstract: Processes for making a high K (dielectric constant) film using an ultra-high purity hafnium containing organometallic compound are disclosed. Also described are devices incorporating high K films made with high purity hafnium containing organometallic compounds.

Abstract: The embodiments of the invention describe a process chamber, such as an ALD chamber, that has gas delivery conduits with gradually increasing diameters to reduce Joule-Thompson effect during gas delivery, a ring-shaped gas liner leveled with the substrate support to sustain gas temperature and to reduce gas flow to the substrate support backside, and a gas reservoir to allow controlled delivery of process gas. The gas conduits with gradually increasing diameters, the ring-shaped gas liner, and the gas reservoir help keep the gas temperature stable and reduce the creation of particles.

Abstract: A method and apparatus for providing a precursor to a process chamber is described. The apparatus comprises an ampoule capable of receiving either a liquid precursor source material or a solid precursor source material. The ampoule is capable of delivering either a liquid precursor material to a vaporizer coupled to the process chamber, or a vaporized or gaseous precursor material to the process chamber. The ampoule also includes a continuous level sensor to accurately monitor the level of precursor source material within the ampoule.

Abstract: A method of forming a dielectric film that includes nitrogen. The method includes incorporating nitrogen into a dielectric film using a nitridation gas and a rapid thermal annealing process, wherein an ultra-low pressure of equal to or less than about 10 Torr is used for the rapid thermal annealing process.

Abstract: A method of forming a dielectric film that includes nitrogen. The method includes incorporating nitrogen into a dielectric film using a nitridation gas and a rapid thermal annealing process, wherein an ultra-low pressure of equal to or less than about 10 Torr is used for the rapid thermal annealing process.

Abstract: Processes for making a high K (dielectric constant) film using an ultra-high purity hafnium containing organometallic compound are disclosed. Also described are devices incorporating high K films made with high purity hafnium containing organometallic compounds.

Abstract: A method and apparatus for providing a precursor to a process chamber is described. The apparatus comprises an ampoule capable of receiving either a liquid precursor source material or a solid precursor source material. The ampoule is capable of delivering either a liquid precursor material to a vaporizer coupled to the process chamber, or a vaporized or gaseous precursor material to the process chamber. The ampoule also includes a continuous level sensor to accurately monitor the level of precursor source material within the ampoule.

Abstract: A method of forming a dielectric film that includes nitrogen. The method includes incorporating nitrogen into a dielectric film using a nitridation gas and a rapid thermal annealing process, wherein an ultra-low pressure of equal to or less than about 10 Torr is used for the rapid thermal annealing process.

Abstract: The present invention provides a method of integrating tantalum oxide into an MIM capacitor for a semiconductor device, comprising the step of vapor-depositing the tantalum oxide from an oxygen-free liquid precursor and under process conditions comprising a deposition temperature of less than about 500° C. and a deposition pressure of less than about 96 Torr, wherein the tantalum oxide is integrated into the MIM capacitor. Also provided is a method of forming an MIM capacitor comprising the step of integrating a tantalum oxide dielectric film with a tantalum nitride or a titanium nitride bottom electrode deposited on a substrate and a titanium nitride top electrode thereby forming an MIM capacitor.

Abstract: An integrated deposition system is provided which is capable of vaporizing low vapor pressure liquid precursors and delivering this vapor into a processing region for use in the fabrication of advanced integrated circuits. The integrated deposition system is made up of a heated exhaust system, a remote plasma generator, a processing chamber and a liquid delivery system which together provide a commercially viable and production worthy system for depositing high capacity dielectric materials from low vapor pressure precursors, anneal those films while also providing commercially viable in-situ cleaning capability.

Abstract: A capacitor structure comprising a bottom electrode, an insulator and a top electrode, and method for manufacturing the same. The bottom and top electrodes preferably include a metal portion and a conducting oxygen-containing metal portion. In one embodiment, a layer of ruthenium is deposited to form a portion of the bottom electrode. Prior to deposition of the insulator, the ruthenium is annealed in an oxygen-containing environment. The insulator is then deposited on the oxygen-containing ruthenium layer. Formation of the top electrode includes depositing a first metal on the insulator, annealing the first metal and then depositing a second metal. The first and second metals may be ruthenium.

Abstract: An integrated deposition system is provided which is capable of vaporizing low vapor pressure liquid precursors and delivering this vapor into a processing region for use in the fabrication of advanced integrated circuits. The integrated deposition system is made up of a heated exhaust system, a remote plasma generator, a processing chamber and a liquid delivery system which together provide a commercially viable and production worthy system for depositing high capacity dielectric materials from low vapor pressure precursors, anneal those films while also providing commercially viable in-situ cleaning capability.

Abstract: A method for improving the interface between a silicon nitride film and a silicon surface is described. According to the present invention a silicon nitride film is formed on a silicon surface of a substrate. While said substrate is heated the silicon nitride film is exposed to an ambient comprising hydrogen (H2). In a prefered embodiment of the present invention the ambient comprises H2 and N2.

Abstract: A method and apparatus for forming and annealing a dielectric layer. According to the present invention an active atomic species is generated in a first chamber. A dielectric layer formed on a substrate is then exposed to the active atomic species in a second chamber, wherein the second chamber is remote from the first chamber.

Abstract: A capacitor structure comprising a bottom electrode, an insulator and a top electrode, and method for manufacturing the same. The bottom and top electrodes preferably include a metal portion and a conducting oxygen-containing metal portion. In one embodiment, a layer of ruthenium is deposited to form a portion of the bottom electrode. Prior to deposition of the insulator, the ruthenium is annealed in an oxygen-containing environment. The insulator is then deposited on the oxygen-containing ruthenium layer. Formation of the top electrode includes depositing a first metal on the insulator, annealing the first metal and then depositing a second metal. The first and second metals may be ruthenium.

Abstract: An integrated deposition system is provided which is capable of vaporizing low vapor pressure liquid precursors and delivering this vapor into a processing region for use in the fabrication of advanced integrated circuits. The integrated deposition system is made up of a heated exhaust system, a remote plasma generator, a processing chamber and a liquid delivery system which together provide a commercially viable and production worthy system for depositing high capacity dielectric materials from low vapor pressure precursors, anneal those films while also providing commercially viable in-situ cleaning capability.

Abstract: A processing chamber cleaning method is described which utilizes microwave energy to remotely generate a reactive species to be used alone or in combination with an inert gas to remove deposits from a processing chamber. The reactive species can remove deposits from a first processing region at a first pressure and then remove deposits from a second processing region at a second pressure. Also described is a cleaning process utilizing remotely generated reactive species in a single processing region at two different pressures. Additionally, different ratios of reactive gas and inert gas may be utilized to improve the uniformity of the cleaning process, increase the cleaning rate, reduce recombination of reactive species and increase the residence time of reactive species provided to the processing chamber.

Abstract: A method and apparatus for forming a titanium doped tantalum pentaoxide dielectric using a CVD process. According to the present invention a substrate is placed in the deposition chamber. A source of tantalum, a source of titanium, and an oxygen containing gas are then fed into the chamber. Thermal energy is used to decompose the source of tantalum to form tantalum atoms, and decompose the source of titanium to form titanium atoms in the deposition chamber. The titanium atoms, tantalum atoms and the oxygen containing gas then react to form a tantalum pentaoxide dielectric film doped with titanium.

Abstract: A method of forming a metal oxide dielectric film. According to the present invention an amorphous metal oxide dielectric film is deposited over a substrate utilizing a metal organic precursor. The substrate is then heated in an inert ambient to convert the amorphous metal oxide dielectric to a polycrystalline metal oxide dielectric. The polycrystalline metal dielectric is then heated in a oxygen containing ambients.

Abstract: A method for improving the interface between a silicon nitride film and a silicon surface is described. According to the present invention a silicon nitride film is formed on a silicon surface of a substrate. While said substrate is heated the silicon nitride film is exposed to an ambient comprising hydrogen (H.sub.2). In a prefered embodiment of the present invention the ambient comprises H.sub.2 and N.sub.2.