Patent application number | Description | Published |
20080202425 | TEMPERATURE CONTROLLED LID ASSEMBLY FOR TUNGSTEN NITRIDE DEPOSITION - Embodiments of the invention provide apparatuses for vapor depositing tungsten-containing materials, such as metallic tungsten and tungsten nitride. In one embodiment, a processing chamber is provided which includes a lid assembly containing a lid plate, a showerhead, a mixing cavity, a distribution cavity, and a resistive heating element contained within the lid plate. In one example, the resistive heating element is configured to provide the lid plate at a temperature within a range from about 120° C. to about 180° C., preferably, from about 140° C. to about 160° C., more preferably, from about 145° C. to about 155° C. The mixing cavity may be in fluid communication with a tungsten precursor source containing tungsten hexafluoride and a nitrogen precursor source containing ammonia. In some embodiments, a single processing chamber may be used to deposit metallic tungsten and tungsten nitride materials by CVD processes. | 08-28-2008 |
20080206987 | PROCESS FOR TUNGSTEN NITRIDE DEPOSITION BY A TEMPERATURE CONTROLLED LID ASSEMBLY - Embodiments of the invention provide processes for vapor depositing tungsten-containing materials, such as metallic tungsten and tungsten nitride. In one embodiment, a method for forming a tungsten-containing material is provided which includes positioning a substrate within a processing chamber containing a lid plate, heating the lid plate to a temperature within a range from about 120° C. to about 180° C., exposing the substrate to a reducing gas during a pre-nucleation soak process, and depositing a first tungsten nucleation layer on the substrate during a first atomic layer deposition process within the processing chamber. The method further provides depositing a tungsten nitride layer on the first tungsten nucleation layer during a vapor deposition process, depositing a second tungsten nucleation layer on the tungsten nitride layer during a second atomic layer deposition process within the processing chamber, and exposing the substrate to another reducing gas during a post-nucleation soak process. | 08-28-2008 |
20110114020 | LID ASSEMBLY FOR A PROCESSING SYSTEM TO FACILITATE SEQUENTIAL DEPOSITION TECHNIQUES - Embodiments of the invention generally relate to apparatuses for processing substrates. In one embodiment, a substrate processing system for sequential deposition or atomic layer deposition (ALD) is provided and includes a lid assembly coupled with a chamber housing, wherein the lid assembly contains a lid having a plurality of controllable flow channels extending from an upper lid surface, through the lid, and to a lower lid surface, a gas manifold disposed on the lid, and at least one valve coupled with the gas manifold and adapted to control a gas flow through one of the controllable flow channels. The substrate processing system further contains a gas reservoir disposed between a first gas line and a second gas line, and the gas reservoir is fluidly connected to the gas manifold by the second gas line. | 05-19-2011 |
20120003388 | METHODS AND APPARATUS FOR THERMAL BASED SUBSTRATE PROCESSING WITH VARIABLE TEMPERATURE CAPABILITY - A substrate support may include a body; an inner ring disposed about the body; an outer ring disposed about the inner ring forming a first opening therebetween; a first seal ring disposed above the first opening; a shadow ring disposed above the inner ring, extending inward from the outer ring and forming a second opening between the shadow and outer rings; a second seal ring disposed above the second opening; a space at least partially defined by the body and the inner, outer, first, second, and shadow rings; a first gap defined between a processing surface of a substrate when present and the shadow ring; and a plurality of second gaps fluidly coupled to the space; wherein the first gap and the plurality of second gaps are configured such that, when a substrate is present, a gas provided to the space flows out of the space through the first gap. | 01-05-2012 |
20130001215 | SUBSTRATE SUPPORT WITH SUBSTRATE HEATER AND SYMMETRIC RF RETURN - Apparatus for processing a substrate are provided herein. In some embodiments, a substrate support includes a substrate support surface and a shaft; an RF electrode disposed in the substrate support proximate the substrate support surface to receive RF current from an RF source; a heater disposed proximate the substrate support surface to provide heat to a substrate when disposed on the substrate support surface, the heater having one or more conductive lines to provide power to the heater; a thermocouple to measure the temperature of a substrate when disposed on the substrate support surface; and a conductive element having an interior volume with the one or more conductive lines and the thermocouple disposed through the interior volume, the conductive element coupled to the RF electrode and having an electric field of about zero in the interior volume when RF current is flowed through the conductive element. | 01-03-2013 |
20130247826 | APPARATUS FOR VARIABLE SUBSTRATE TEMPERATURE CONTROL - In some embodiments, an apparatus for variable substrate temperature control may include a heater moveable along a central axis of a substrate support; a seal ring disposed about the heater, the seal ring configured to interface with a shadow ring disposed above the heater to form a seal; a plurality of spacer pins configured to support a substrate and disposed within a plurality of through holes formed in the heater, the plurality of spacer pins moveable parallel to the central axis, wherein the plurality of spacer pins control a first distance between the substrate and the heater and a second distance between the substrate and the shadow ring; and a resilient element disposed beneath the seal ring to bias the seal ring toward a backside surface of the heater. | 09-26-2013 |
20140144901 | SUBSTRATE SUPPORT WITH WIRE MESH PLASMA CONTAINMENT - Embodiments of substrate supports having a wire mesh plasma containment are provided herein. In some embodiments, a substrate support may include a plate comprising a first surface, an opposing second surface, a thickness bounded by the first and second surfaces, and a first perimetrical surface; a first heater element disposed between the first and second surfaces; a wire mesh disposed between the first and second surfaces; a ground connector mounted to a surface of the plate; at least one electrical connection between the wire mesh and the ground connector; and an elongate shaft comprising a first end and an opposite second end, wherein the plate second surface is mounted to the first end of the shaft. | 05-29-2014 |
20140190411 | LID ASSEMBLY FOR A PROCESSING SYSTEM TO FACILITATE SEQUENTIAL DEPOSITION TECHNIQUES - Embodiments of the invention generally relate to apparatuses for processing substrates. In one embodiment, a substrate processing system is provided and includes a lid having an upper lid surface opposed to a lower lid surface, a plurality of gas inlet passages extending from the upper lid surface to the lower lid surface, a gas manifold disposed on the lid, at least one valve coupled with the gas manifold and configured to control a gas flow through one of the gas inlet passages, wherein the at least one valve is configured to provide an open and close cycle having a time period of less than about 1 second during a gas delivery cycle for enabling an atomic layer deposition process. The substrate processing system further contains a gas reservoir fluidly connected between the gas manifold and at least one precursor source. | 07-10-2014 |
20140217665 | SUBSTRATE SUPPORT WITH CONTROLLED SEALING GAP - Embodiments of substrate supports are provided herein. In some embodiments, a substrate support may include a support plate having a support surface a support plate having a support surface to support a substrate, a support ring to support a substrate at a perimeter of the support surface; and a plurality of first support elements disposed in the support ring, wherein an end portion of each of the first support elements is raised above an upper surface of the support ring to define a gap between the upper surface of the support ring and an imaginary plane disposed on the end portions of plurality of first support elements. | 08-07-2014 |
20140251207 | SUBSTRATE SUPPORT WITH MULTI-PIECE SEALING SURFACE - Embodiments of substrate supports and sealing rings for use in a substrate support are provided herein. In some embodiments, a substrate support structure includes an arcuate sealing piece having a first side including a generally planar support surface; a first arcuate portion; a second arcuate portion disposed radially inward of the first arcuate portion; a first end portion comprising a first arcuate extension extending from the first arcuate portion; and a second end portion comprising a second arcuate extension extending from the second arcuate portion. | 09-11-2014 |
20140251214 | HEATED SUBSTRATE SUPPORT WITH FLATNESS CONTROL - Embodiments of heated substrate supports are provided herein, In some embodiments, a heated substrate support includes a support plate having a top surface and an opposite bottom surface; and a first heater disposed within the support plate, wherein the first heater is disposed beneath a mid-plane of the support plate, and wherein the first heater is disposed proximate a central zone of the support plate. | 09-11-2014 |
20140252710 | SUBSTRATE SUPPORT WITH INTEGRATED VACUUM AND EDGE PURGE CONDUITS - Substrate supports are provided herein, In some embodiments, a substrate support includes a first plate; a plurality of vacuum passages disposed through the first plate; a plurality of vertical passages formed partially into the first plate; a plurality of horizontal passages disposed in the first plate, each of the plurality of horizontal passages beginning proximate a perimeter of the first plate and terminating proximate one of the plurality of vertical passages such that the horizontal passages and the vertical passages are in fluid communication; a second plate coupled to the first plate at an interface; an elongate shaft having a vacuum line and an edge purge line internal to the shaft; a vacuum channel formed at the interface fluidly coupling the vacuum line to the plurality of vacuum passages; and an edge purge channel formed at the interface fluidly coupling the edge purge line to the plurality of vertical passages. | 09-11-2014 |
20140265097 | SUBSTRATE SUPPORT PLATE WITH IMPROVED LIFT PIN SEALING - Embodiments of lift pin assemblies and substrate supports having such lift pin assemblies are provided herein. In some embodiments, a lift pin assembly includes a body with a first end including a flange and an opposing second end; a bore through the body from the first end to the second end; a profile on an outer surface proximate a second end; and a collar, wherein the profile is configured to removably lock the collar onto the second end. | 09-18-2014 |
20150075432 | APPARATUS TO IMPROVE SUBSTRATE TEMPERATURE UNIFORMITY - Apparatus for improving substrate temperature uniformity in a substrate processing chamber are provided herein. In some embodiments, a substrate support processing chamber may include a chamber body having a bottom portion and a sidewall having a slit valve opening to load and unload substrates, a pin lift mechanism, disposed in a pin lift mechanism opening formed in the bottom portion of the chamber body, having a plurality of substrate support pins coupled to the pin lift mechanism, a movable substrate support heater having substrate support portion and a shaft, and a cover plate disposed about the shaft of the movable substrate support, wherein the cover plate covers the pin lift mechanism and pin lift mechanism opening. | 03-19-2015 |