Abstract: A memory device and method in which the capacitor lower electrode within the memory cell array and a first interconnection layer within the peripheral circuitry are provided simultaneously from the same conductive material. The capacitor upper electrode and a second interconnection layer within the peripheral circuitry are also provided simultaneously from the same conductive material.

Abstract: A new method and structure for an improved contact using doped silicon is provided. The structures are integrated into several higher level embodiments. The improved contact has low contact resistivity. Improved junctions are thus provided between an IGFET device and subsequent metallization layers. The improvements are obtained through the use of a silicon-germanium (Si—Ge) alloy. The alloy can be formed from depositing germanium onto the substrate and subsequently annealing the contact or by selectively depositing the preformed alloy into a contact opening. The above advantages are incorporated with relatively few process steps.

Abstract: A method of forming a high dielectric oxide film includes forming a high dielectric oxide film on a surface. The high dielectric oxide film has a dielectric constant greater than about 4 and includes a plurality of oxygen vacancies present during the formation of the film. The high dielectric oxide film is exposed during the formation thereof to an amount of atomic oxygen sufficient for reducing the number of oxygen vacancies. Further, the amount of atomic oxygen used in the formation method may be controlled as a function of the amount of oxygen incorporated into the high dielectric oxide film during the formation thereof or be controlled as a function of the concentration of atomic oxygen in a process chamber in which the high dielectric oxide film is being formed. An apparatus for forming the high dielectric oxide film is also described.

Abstract: A method of fabricating an integrated circuit having reduced threshold voltage shift is provided. A nonconducting region is formed on the semiconductor substrate and active regions are formed on the semiconductor substrate. The active regions are separated by the nonconducting region. A barrier layer and a dielectric layer are deposited over the nonconducting region and over the active regions. Heat is applied to the integrated circuit causing the barrier layer to anneal.

Abstract: A capacitor has a tantalum oxynitride film. One method for making the film comprises forming a bottom plate electrode and then forming a tantalum oxide film on the bottom plate electrode. Nitrogen is introduced to form a tantalum oxynitride film. A top plate electrode is formed on the tantalum oxynitride film.

Abstract: In one aspect, a method of forming an electronic device includes forming a layer comprising undoped oxide over a layer of doped oxide. A first electrode is formed proximate thereto. With the undoped oxide layer being outwardly exposed, a silicon nitride layer is formed on the undoped oxide layer and over the first electrode by low pressure chemical vapor deposition to a thickness of no greater than 80 Angstroms. The substrate is exposed to oxidizing conditions comprising at least 700° C. to form a silicon dioxide layer over the silicon nitride layer, with the thickness of silicon nitride on the undoped oxide layer being sufficient to shield oxidizable substrate material beneath the doped oxide layer from oxidizing during the exposing. A second electrode is formed over the silicon dioxide layer and the first electrode. Other aspects are contemplated.

Abstract: Disclosed is a process for analyzing the surface characteristics of opaque materials. The method comprises in one embodiment the use of a UV reflectometer to build a calibration matrix of data from a set of control samples and correlating a desired surface characteristic such as rouglness or surface area to the set of reflectances of the control samples. The UV reflectometer is then used to measure the reflectances of a test sample of unknown surface characteristics. Reflectances are taken at a variety of angles of reflection for a variety of wavelengths, preferably between about 250 nanometers to about 400 nanometers. These reflectances are then compared against the reflectances of the calibration matrix in order to correlate the closest data in the calibration matrix. By so doing, a variety of information is thereby concluded, due to the broad spectrum of wavelengths and angles of reflection used.

Abstract: An embodiment of the present invention teaches a capacitor dielectric in a wafer cluster tool for semiconductor device fabrication formed by a method by the steps of: forming nitride adjacent a layer by rapid thermal nitridation; and subjecting the nitride to an ozone ambient, wherein the ozone ambient is selected from the group consisting of an ambient containing an the presence of ultraviolet light and ozone gas, an ambient containing ozone gas or an ambient containing an NF3/ozone gas mixture.

Abstract: In one aspect, the invention includes a method of forming circuitry comprising: a) forming a capacitor electrode over one region of a substrate: b) forming a capacitor dielectric layer proximate the electrode; c) forming a conductive diffusion barrier layer, the conductive diffusion barrier layer being between the electrode and the capacitor dielectric layer; d) forming a conductive plug over another region of the substrate, the conductive plug comprising a same material as the conductive diffusion barrier layer; and e) at least a portion of the conductive plug being formed simultaneously with the conductive diffusion barrier layer. In another aspect, the invention includes an integrated circuit comprising a capacitor and a conductive plug, the conductive plug and capacitor comprising a first common and continuous layer.

Abstract: The fixed charge in a borophosphosilicate glass insulating film deposited on a semiconductor device is reduced by reacting an organic precursor such as TEOS with O3. When done at temperatures higher than approximately 480 degrees C., the carbon level in the resulting film appears to be reduced, resulting in a higher threshold voltage for field transistor devices.

Abstract: Methods and apparatus for forming word line stacks comprise one, or a combination of the following: a silicon diffusion barrier layer, doped with oxygen or nitrogen, coupled between a bottom silicon layer and a conductor layer; an amorphous silicon diffusion barrier coupled between a polysilicon layer and a conductor layer; a thin nitride layer coupled between a bottom silicon layer and a titanium silicide conductor layer, and a bottom silicon layer coupled to a conductor layer, which comprises C54-titanium silicide. Word line stacks formed by the methods of the invention are used in sub-0.25 micron line width applications and have a lower resistivity and improved thermal stability.

Abstract: A first electrode and a doped oxide layer laterally proximate thereof are provided over a substrate. A silicon nitride layer is formed over both the doped oxide layer and the first electrode to a thickness of no greater than 80 Angstroms over at least the first electrode by low pressure chemical vapor deposition at a pressure of at least 1 Torr, a temperature of less than 700° C. and using feed gases comprising a silicon hydride and ammonia. The substrate with silicon nitride layer is exposed to oxidizing conditions comprising at least 700° C. to form a silicon dioxide layer over the silicon nitride layer, with the thickness of silicon nitride over the doped oxide layer being sufficient to shield oxidizable substrate material beneath the doped oxide layer from oxidizing during the exposing. A second electrode is formed over the silicon dioxide layer and the first electrode. In another implementation, a layer comprising undoped oxide is formed over a doped oxide layer.

Abstract: A process for forming a storage capacitor for a semiconductor assembly, by forming a first storage electrode having a top surface consisting of titanium nitride; forming a barrier layer directly on the titanium nitride, the barrier layer (a material containing any one of amorphous silicon, tantalum, titanium, or strontium) being of sufficient thickness to substantially limit the oxidation of the titanium nitride when the semiconductor assembly is subjected to an oxidizing agent (either an oxidizing agent or an nitridizing agent); converting a portion of the barrier layer to a dielectric compound; depositing a storage cell dielectric directly on the dielectric compound, the storage cell dielectric being of the same chemical makeup as the dielectric compound and thereby using the dielectric compound as a nucleation surface; and forming a second capacitor electrode on the storage cell dielectric.

Abstract: A method of forming a corrugated capacitor on a semiconductor component. The method of forming the corrugated capacitor comprises a series of depositing alternating layers of doped silicon glass having different etch rates on a semiconductor component, covering the alternating layers with an etch-resistant material, and etching the alternating layers, thereby forming a capacitor structure having corrugated sides.

Abstract: A system is coupled to a network to receive and process inventions submitted by innovators. Descriptions of the inventions are collected, categorized and evaluated. A database containing the evaluated descriptions is made available to potential users or customers of the inventions. The customers can review the inventions by category, or by searching for solutions to problems they would like to solve. Once an invention is identified, the customers can review evaluations including technical feasibility, commercial feasibility and patentability feasibility. A facilitator serves as an arbitrator between innovators and customers for the intellectual property in question. Licenses are also available, and the facilitator may take a percentage of any licenses concluded.

Abstract: Disclosed is a process for analyzing the surface characteristics of opaque materials. The method comprises in one embodiment the use of a UV reflectometer to build a calibration matrix of data from a set of control samples and correlating a desired surface characteristic such as roughness or surface area to the set of reflectances of the control samples. The UV reflectometer is then used to measure the reflectances of a test sample of unknown surface characteristics. Reflectances are taken at a variety of angles of reflection for a variety of wavelengths, preferably between about 250 nanometers to about 400 nanometers. These reflectances are then compared against the reflectances of the calibration matrix in order to correlate the closest data in the calibration matrix. By so doing, a variety of information is thereby concluded, due to the broad spectrum of wavelengths and angles of reflection used.

Abstract: The invention encompasses stacked semiconductor devices including gate stacks, wordlines, PROMs, conductive interconnecting lines, and methods for forming such structures. The invention also includes a method of forming a transistor gate comprising: a) forming gate dielectric layer; b) forming a polysilicon gate layer against the gate dielectric layer; and c) doping the polysilicon gate layer with a conductivity-enhancing dopant, the dopant being provided in a concentration gradient within the polysilicon layer, the concentration gradient increasing in a direction toward the gate dielectric layer. The invention also includes a wordline comprising: a) a polysilicon line; a substantially fluorine impervious barrier layer over the polysilicon line; and a b) layer of metal-silicide over the substantially fluorine impervious barrier layer.

Abstract: Stress resulting from silicon nitride is diminished by forming an oxidation mask with silicon nitride having a graded silicon concentration. Grading is accomplished by changing the silicon content in the silicon nitride by varying the amount of hydride, such as dichlorosilane (DCS), mixed with ammonia. The silicon nitride can be graded in a substantially linear or non-linear fashion. Silicon nitride formed with higher levels of DCS mixed with ammonia is referred to as silicon rich nitride because of its relatively higher silicon content. In one embodiment, the graded silicon nitride may be formed with one type of non-linear silicon grading, an abrupt junction. In other embodiments, the silicon nitride is formed in a variety of shapes fashioned during or after silicon nitride growth. In one embodiment, the stress from the silicon nitride is reduced by forming a polysilicon buffer layer between two silicon nitride layers.

Abstract: This invention pertains to a method for the systematic development of integrated chip technology. The method may include obtaining empirical data of parameters for an existing integrated circuit manufacturing process and extrapolating the known data to a new technology to assess potential yields of the new technology from the known process. Further, process variables of the new process may be adjusted based upon the empirical data in order to optimize the yields of the new technology. A logic based computing system such as a fuzzy logic or neural-network system may be utilized. The computing system may also be utilized to improve the yields of an existing manufacturing process by adjust process variables within downstream process tools based upon data collected in upstream process for a particular semiconductor substrate or lot.

Abstract: Capacitor constructions and methods of forming the same are described. In one implementation, a capacitor container is formed over a substrate and includes an internal surface and an external surface. At least some of the external surface is provided to be rougher than at least some of the internal container surface. A capacitor dielectric layer and an outer capacitor plate layer are formed over at least portions of the internal and the external surfaces of the capacitor container. In another implementation, a layer comprising roughened polysilicon is formed over at least some of the external container surface but not over any of the internal container surface. In a preferred aspect, the roughened external surface or roughened polysilicon comprises hemispherical grain polysilicon.