Patent application number | Description | Published |
20110256726 | PLASMA ACTIVATED CONFORMAL FILM DEPOSITION - Methods of depositing a film on a substrate surface include surface mediated reactions in which a film is grown over one or more cycles of reactant adsorption and reaction. In one aspect, the method is characterized by the following operations: (a) exposing the substrate surface to a first reactant in vapor phase under conditions allowing the first reactant to adsorb onto the substrate surface; (b) exposing the substrate surface to a second reactant in vapor phase while the first reactant is adsorbed on the substrate surface; and (c) exposing the substrate surface to plasma to drive a reaction between the first and second reactants adsorbed on the substrate surface to form the film. | 10-20-2011 |
20110256734 | SILICON NITRIDE FILMS AND METHODS - Described are methods of making SiN materials on substrates, particularly SiN thin films on semiconductor substrates. Improved SiN films made by the methods are also included. | 10-20-2011 |
20120028454 | PLASMA ACTIVATED CONFORMAL DIELECTRIC FILM DEPOSITION - Methods of depositing a film on a substrate surface include surface mediated reactions in which a film is grown over one or more cycles of reactant adsorption and reaction. In one aspect, the method is characterized by intermittent delivery of dopant species to the film between the cycles of adsorption and reaction. | 02-02-2012 |
20130157466 | SILICON NITRIDE FILMS FOR SEMICONDUCTOR DEVICE APPLICATIONS - The embodiments herein relate to plasma-enhanced chemical vapor deposition methods and apparatus for depositing silicon nitride on a substrate. The disclosed methods provide silicon nitride films having wet etch rates (e.g., in dilute hydrofluoric acid or hot phosphoric acid) suitable for certain applications such as vertical memory devices. Further, the methods provide silicon nitride films having defined levels of internal stress suitable for the applications in question. These silicon nitride film characteristics can be set or tuned by controlling, for example, the composition and flow rates of the precursors, as well as the RF power supplied to the plasma and the pressure in the reactor. In certain embodiments, a boron-containing precursor is added. | 06-20-2013 |
20130267081 | POST-DEPOSITION SOFT ANNEALING - The methods and apparatus disclosed herein concern a process that may be referred to as a “soft anneal.” A soft anneal provides various benefits. Fundamentally, it reduces the internal stress in one or more silicon layers of a work piece. Typically, though not necessarily, the internal stress is a compressive stress. A particularly beneficial application of a soft anneal is in reduction of internal stress in a stack containing two or more layers of silicon. Often, the internal stress of a layer or group of layers in a stack is manifest as wafer bow. The soft anneal process can be used to reduce compressive bow in stacks containing silicon. The soft anneal process may be performed without causing the silicon in the stack to become activated. | 10-10-2013 |
20140179114 | RADICAL SOURCE DESIGN FOR REMOTE PLASMA ATOMIC LAYER DEPOSITION - A radical source for supplying radicals during atomic layer deposition semiconductor processing operations is provided. The radical source may include a remote volume, a baffle volume, and a baffle that partitions the remote volume from the baffle volume. The baffle volume and the remote volume may be fluidly connected through the baffle via a plurality of baffle holes. The baffle may be offset from a faceplate with a plurality of first gas distribution holes fluidly connected with the baffle volume. A baffle gas inlet may be fluidly connected with the baffle volume, and a first process gas inlet may be fluidly connected with the remote volume. Baffle gas may be flowed into the baffle volume to prevent radicalized first process gas in the remote volume from flowing through the baffle volume and the faceplate. | 06-26-2014 |
20140235069 | MULTI-PLENUM SHOWERHEAD WITH TEMPERATURE CONTROL - An apparatus for use with radical sources for supplying radicals during semiconductor processing operations is provided. The apparatus may include a stack of plates or components that form a faceplate assembly. The faceplate assembly may include a radical diffuser plate, a precursor delivery plate, and a thermal isolator interposed between the radical diffuser plate and the precursor delivery plate. The faceplate assembly may have a pattern of radical through-holes with centerlines substantially perpendicular to the radical diffuser plate. The thermal isolator may be configured to regulate heat flow between the radical diffuser plate and the precursor delivery plate. | 08-21-2014 |
Patent application number | Description | Published |
20140106574 | GAPFILL OF VARIABLE ASPECT RATIO FEATURES WITH A COMPOSITE PEALD AND PECVD METHOD - Provided herein are methods and apparatus for filling one or more gaps on a semiconductor substrate. The disclosed embodiments are especially useful for forming seam-free, void-free fill in both narrow and wide features. The methods may be performed without any intervening etching operations to achieve a single step deposition. In various implementations, a first operation is performed using a novel PEALD fill mechanism to fill narrow gaps and line wide gaps. A second operation may be performed using PECVD methods to continue filling the wide gaps. | 04-17-2014 |
20140209562 | PLASMA ACTIVATED CONFORMAL FILM DEPOSITION - Methods of depositing a film on a substrate surface include surface mediated reactions in which a film is grown over one or more cycles of reactant adsorption and reaction. In one aspect, the method is characterized by the following operations: (a) exposing the substrate surface to a first reactant in vapor phase under conditions allowing the first reactant to adsorb onto the substrate surface; (b) exposing the substrate surface to a second reactant in vapor phase while the first reactant is adsorbed on the substrate surface; and (c) exposing the substrate surface to plasma to drive a reaction between the first and second reactants adsorbed on the substrate surface to form the film. | 07-31-2014 |
20150013607 | IN-SITU DEPOSITION OF FILM STACKS - An apparatus for depositing film stacks in-situ (i.e., without a vacuum break or air exposure) are described. In one example, a plasma-enhanced chemical vapor deposition apparatus configured to deposit a plurality of film layers on a substrate without exposing the substrate to a vacuum break between film deposition phases, is provided. The apparatus includes a process chamber, a plasma source and a controller configured to control the plasma source to generate reactant radicals using a particular reactant gas mixture during the particular deposition phase, and sustain the plasma during a transition from the particular reactant gas mixture supplied during the particular deposition phase to a different reactant gas mixture supplied during a different deposition phase. | 01-15-2015 |
Patent application number | Description | Published |
20120199485 | ULTRA-FAST NUCLEIC ACID SEQUENCING DEVICE AND A METHOD FOR MAKING AND USING THE SAME - A system and method employ at least one semiconductor device, or an arrangement of insulating and metal layers, having at least one detecting region which can include, for example, a recess or opening therein, for detecting a charge representative of a component of a polymer, such as a nucleic acid strand proximate to the detecting region. A method for manufacturing forms such a semiconductor device. The system and method can be used for sequencing individual nucleotides or bases of ribonucleic acid (RNA) or deoxyribonucleic acid (DNA). The detecting region permits a current to pass between the two doped regions in response to the presence of the component of the polymer, such as a base of a DNA or RNA strand. The current has characteristics representative of the component of the polymer, such as characteristics representative of the detected base of the DNA or RNA strand. | 08-09-2012 |
20130068619 | Method and Apparatus for Detecting Nucleotides - A system and method employing at least one semiconductor device, or an arrangement of insulating and metal layers, having at least one detecting region which can include, for example, a recess or opening therein, for detecting a charge representative of a component of a polymer, such as a nucleic acid strand proximate to the detecting region, and a method for manufacturing such a semiconductor device. The system and method can thus be used for sequencing individual nucleotides or bases of ribonucleic acid (RNA) or deoxyribonucleic acid (DNA). The semiconductor device includes at least two doped regions, such as two n-typed regions implanted in a p-typed semiconductor layer or two p-typed regions implanted in an n-typed semiconductor layer. The detecting region permits a current to pass between the two doped regions in response to the presence of the component of the polymer. | 03-21-2013 |
20130264204 | METHOD AND APPARATUS FOR DETECTING NUCLEOTIDES - A system and method employing at least one semiconductor device, or an arrangement of insulating and metal layers, having at least one detecting region which can include, for example, a recess or opening therein, for detecting a charge representative of a component of a polymer, such as a nucleic acid strand proximate to the detecting region, and a method for manufacturing such a semiconductor device. The system and method can thus be used for sequencing individual nucleotides or bases of ribonucleic acid (RNA) or deoxyribonucleic acid (DNA). The semiconductor device includes at least two doped regions, such as two n-typed regions implanted in a p-typed semiconductor layer or two p-typed regions implanted in an n-typed semiconductor layer. The detecting region permits a current to pass between the two doped regions in response to the presence of the component of the polymer. | 10-10-2013 |
20140021048 | Method and Apparatus for Detecting Nucleotides - A system and method employing at least one semiconductor device, or an arrangement of insulating and metal layers, having at least one detecting region which can include, for example, a recess or opening therein, for detecting a charge representative of a component of a polymer, such as a nucleic acid strand proximate to the detecting region, and a method for manufacturing such a semiconductor device. The system and method can thus be used for sequencing individual nucleotides or bases of ribonucleic acid (RNA) or deoxyribonucleic acid (DNA). The semiconductor device includes at least two doped regions, such as two n-typed regions implanted in a p-typed semiconductor layer or two p-typed regions implanted in an n-typed semiconductor layer. The detecting region permits a current to pass between the two doped regions in response to the presence of the component of the polymer, such as a base of a DNA or RNA strand. The current has characteristics representative of the component of the polymer, such as characteristics representative of the detected base of the DNA or RNA strand. | 01-23-2014 |