Patents by Inventor Adam Brand
Adam Brand has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 10008384Abstract: A method of patterning a substrate. The method may include providing a surface feature on the substrate, the surface feature having a first dimension along a first direction within a substrate plane, and a second dimension along a second direction within the substrate plane, wherein the second direction is perpendicular to the first direction; and directing first ions in a first exposure to the surface feature along the first direction at a non-zero angle of incidence with respect to a perpendicular to the substrate plane, in a presence of a reactive ambient containing a reactive species; wherein the first exposure etches the surface feature along the first direction, wherein after the directing, the surface feature retains the second dimension along the second direction, and wherein the surface feature has a third dimension along the first direction different than the first dimension.Type: GrantFiled: June 25, 2015Date of Patent: June 26, 2018Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Simon Ruffell, John Hautala, Adam Brand, Huixiong Dai
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Patent number: 9934981Abstract: A method of treating a substrate includes directing ions to the substrate along at least one non-zero angle with respect to a perpendicular to a substrate surface in a presence of a reactive ambient containing a reactive species where the substrate includes a surface feature. At least one surface of the surface feature is etched using the ions in combination with the reactive ambient at a first etch rate that is greater than a second etch rate when the ions are directed to the substrate without the reactive ambient and greater than a third etch rate when the reactive ambient is provided to the substrate without the ions.Type: GrantFiled: March 31, 2014Date of Patent: April 3, 2018Assignee: VARIAN SEMICONDUCTOR EQUIPMENT ASSOCIATES, INC.Inventors: Steven R. Sherman, Simon Ruffell, John Hautala, Adam Brand
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Patent number: 9673277Abstract: A method of forming a semiconductor device includes: forming a superlattice structure atop the top surface of a substrate, wherein the superlattice structure comprises a plurality of first layers and a corresponding plurality of second layers alternatingly arranged in a plurality of stacked pairs; forming a lateral etch stop layer by epitaxial deposition of a material of the first layer or the second layer of the superlattice structure atop a sidewall of the superlattice structure, or by selectively oxidizing edges of the first layers and second layers of the superlattice structure; subsequently forming a source region adjacent a first end of the superlattice structure and a drain region adjacent a second opposing end of the superlattice structure; and selectively etching the superlattice structure to remove each of the first layers or each of the second layers to form a plurality of voids in the superlattice structure.Type: GrantFiled: October 16, 2015Date of Patent: June 6, 2017Assignee: APPLIED MATERIALS, INC.Inventors: Adam Brand, Bingxi Sun Wood, Naomi Yoshida, Lin Dong, Shiyu Sun, Chi-Nung Ni, Yihwan Kim
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Publication number: 20160379816Abstract: A method of patterning a substrate. The method may include providing a surface feature on the substrate, the surface feature having a first dimension along a first direction within a substrate plane, and a second dimension along a second direction within the substrate plane, wherein the second direction is perpendicular to the first direction; and directing first ions in a first exposure to the surface feature along the first direction at a non-zero angle of incidence with respect to a perpendicular to the substrate plane, in a presence of a reactive ambient containing a reactive species; wherein the first exposure etches the surface feature along the first direction, wherein after the directing, the surface feature retains the second dimension along the second direction, and wherein the surface feature has a third dimension along the first direction different than the first dimension.Type: ApplicationFiled: June 25, 2015Publication date: December 29, 2016Inventors: Simon Ruffell, John Hautala, Adam Brand, Huixiong Dai
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Patent number: 9378941Abstract: An electron beam plasma source is used in a soft plasma surface treatment of semiconductor surfaces containing Ge or group III-V compound semiconductor materials.Type: GrantFiled: October 28, 2013Date of Patent: June 28, 2016Assignee: APPLIED MATERIALS, INC.Inventors: Aneesh Nainani, Bhushan N. Zope, Leonid Dorf, Shahid Rauf, Adam Brand, Mathew Abraham, Subhash Deshmukh
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Patent number: 9337314Abstract: A method to selectively process a three dimensional device, comprising providing a substrate having a first surface that extends horizontally, the substrate comprising a structure containing a second surface that extends vertically from the first surface; providing a film on the substrate, the film comprising carbon species; and etching a selected portion of the film by exposing the selected portion of the film to an etchant containing hydrogen species, where the etchant excludes oxygen species and fluorine species.Type: GrantFiled: December 11, 2013Date of Patent: May 10, 2016Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Nilay A. Pradhan, Benjamin Colombeau, Naushad K. Variam, Mandar B. Pandit, Christopher Dennis Bencher, Adam Brand
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Publication number: 20160111495Abstract: A method of forming a semiconductor device includes: forming a superlattice structure atop the top surface of a substrate, wherein the superlattice structure comprises a plurality of first layers and a corresponding plurality of second layers alternatingly arranged in a plurality of stacked pairs; forming a lateral etch stop layer by epitaxial deposition of a material of the first layer or the second layer of the superlattice structure atop a sidewall of the superlattice structure, or by selectively oxidizing edges of the first layers and second layers of the superlattice structure; subsequently forming a source region adjacent a first end of the superlattice structure and a drain region adjacent a second opposing end of the superlattice structure; and selectively etching the superlattice structure to remove each of the first layers or each of the second layers to form a plurality of voids in the superlattice structure.Type: ApplicationFiled: October 16, 2015Publication date: April 21, 2016Inventors: ADAM BRAND, BINGXI SUN WOOD, NAOMI YOSHIDA, LIN DONG, SHIYU SUN, CHI-NUNG NI, YIHWAN KIM
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Publication number: 20160056033Abstract: Surface pretreatment of SiGe or Ge surfaces prior to gate oxide deposition cleans the SiGe or Ge surface to provide a hydrogen terminated surface or a sulfur passivated (or S—H) surface. Atomic layer deposition (ALD) of a high-dielectric-constant oxide at a low temperature is conducted in the range of 25-200° C. to form an oxide layer. Annealing is conducted at an elevated temperature. A method for oxide deposition on a damage sensitive III_V semiconductor surface conducts in-situ cleaning of the surface with cyclic pulsing of hydrogen and TMA (trimethyl aluminum) at a low temperature in the range of 100-200° C. Atomic layer deposition (ALD) of a high-dielectric-constant oxide forms an oxide layer. Annealing is conducted at an elevated temperature. The annealing can create a silicon terminated interfaces.Type: ApplicationFiled: August 19, 2015Publication date: February 25, 2016Inventors: Kasra Sardashti, Tobin Kaufman-Osborn, Tyler Kent, Andrew Kummel, Shariq Siddiqui, Bhagawan Sahu, Adam Brand, Naomi Yoshida
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Patent number: 9190498Abstract: A three-dimensional structure disposed on a substrate is processed so as to alter the etch rate of material disposed on at least one surface of the structure. In some embodiments, a conformal deposition of material is performed on the three-dimensional structure. Subsequently, an ion implant is performed on at least one surface of the three-dimensional structure. This ion implant serves to alter the etch rate of the material deposited on that structure. In some embodiments, the ion implant increases the etch rate of the material. In other embodiments, the ion implant decreases the etch rate. In some embodiments, ion implants are performed on more than one surface, such that the material on at least one surface is etched more quickly and material on at least one other surface is etched more slowly.Type: GrantFiled: September 13, 2013Date of Patent: November 17, 2015Assignee: Varian Semiconductor Equipment Associates, Inc.Inventors: Adam Brand, Srinivas Nemani, John J. Hautala, Ludovic Godet, Yuri Erokhin
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Publication number: 20150262828Abstract: Methods for forming a multi-threshold voltage device on a substrate are provided herein. In some embodiments, the method of forming a multi-threshold voltage device may include (a) providing a substrate having a first layer disposed thereon, wherein the substrate comprises a first feature and a second feature disposed within the first layer; (b) depositing a blocking layer atop the substrate; (c) selectively removing a portion of the blocking layer from atop the substrate to expose the first feature; (d) selectively depositing a first work function layer atop the first feature; (e) removing a remainder of the blocking layer to expose the second feature; and (f) depositing a second work function layer atop the atop the first work function layer and the second feature.Type: ApplicationFiled: February 20, 2015Publication date: September 17, 2015Inventors: ADAM BRAND, NAOMI YOSHIDA, SESHADRI GANGULI, DAVID THOMPSON, MEI CHANG
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Publication number: 20150255243Abstract: Embodiments of the disclosure provide apparatus and methods for modifying a surface of a substrate using a plasma modification process. In one embodiment, a process generally includes the removal and/or redistribution of a portion of an exposed surface of the substrate by use of an energetic particle beam while the substrate is disposed within a particle beam modification apparatus. Embodiments may also provide a plasma modification process that includes one or more pre-planarization processing steps and/or one or more post-planarization processing steps that are all performed within one processing system. Some embodiments may provide an apparatus and methods for planarizing a surface of a substrate by performing all of the plasma modification processes within either the same processing chamber, the same processing system or within processing chambers found in two or more processing systems.Type: ApplicationFiled: March 6, 2015Publication date: September 10, 2015Inventors: Ludovic GODET, Ellie Y. YIEH, Srinivas D. NEMANI, Gary E. DICKERSON, Svetlana B. RADOVANOV, Adam BRAND
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Publication number: 20150118832Abstract: Embodiments of the present invention provide a methods for patterning a hardmask layer with good process control for an ion implantation process, particularly suitable for manufacturing the fin field effect transistor (FinFET) for semiconductor chips. In one embodiment, a method of patterning a hardmask layer disposed on a substrate includes forming a planarization layer over a hardmask layer disposed on a substrate, disposing a patterned photoresist layer over the planarization layer, patterning the planarization layer and the hardmask layer uncovered by the patterned photoresist layer in a processing chamber, exposing a first portion of the underlying substrate, and removing the planarization layer from the substrate.Type: ApplicationFiled: October 24, 2013Publication date: April 30, 2015Inventors: Bingxi Sun WOOD, Li Yan MIAO, Huixiong DAI, Adam BRAND, Yongmei CHEN, Mandar B. PANDIT, Qingjun ZHOU
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Patent number: 9018054Abstract: The present invention relates to combinations of materials and fabrication techniques which are useful in the fabrication of filled, metal-comprising gates for use in planar and 3D Field Effect Transistor (FET) structures. The FET structures described are of the kind needed for improved performance in semiconductor device structures produced at manufacturing nodes which implement semiconductor feature sizes in the 15 nm range or lower.Type: GrantFiled: March 15, 2013Date of Patent: April 28, 2015Assignee: Applied Materials, Inc.Inventors: Naomi Yoshida, Adam Brand
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Patent number: 8999821Abstract: Methods of forming a fin structure for a field effect transistor are described. The methods may include the operations of patterning a mandrel on a surface of a substrate, and depositing an epitaxial layer of high-mobility channel material over exposed surfaces of the patterned mandrel. The epitaxial layer leaves a gap between adjacent columns of the patterned mandrel, and a dielectric material may be deposited in the gap between the adjacent columns of the patterned mandrel. The methods may also include planarizing the epitaxial layer to form a planarized epitaxial layer and exposing the columns of the patterned mandrel, and etching at least a portion of the exposed columns of the patterned mandrel and the dielectric material to expose at least a portion of the planarized epitaxial layer that forms the fin structure.Type: GrantFiled: May 5, 2014Date of Patent: April 7, 2015Assignee: Applied Materials, Inc.Inventors: Adam Brand, Bingxi Wood, Errol Sanchez, Yihwan Kim, Yi-Chiau Huang, John Boland
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Patent number: 8999829Abstract: The control of gate widths is improved for system-on-a-chip (SoC) devices which require multiple gate dielectric “gate” thicknesses, e.g., for analog and digital processing on the same chip. A hard mask is formed to protect a thick gate while the thin gate region is etched to remove oxide (sometimes referred to as a preclean step). The patterned substrate is then processed to selectively deposit a second thickness of gate material. The thin gate may be silicon oxide and the physical thickness of the thin gate may be less than that of the thick gate. In a preferred embodiment, the substrate is not exposed to air or atmosphere after the hardmask is removed.Type: GrantFiled: September 3, 2013Date of Patent: April 7, 2015Assignee: Applied Materials, Inc.Inventors: Adam Brand, Bingxi Wood
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Publication number: 20150093862Abstract: An electron beam plasma source is used in a soft plasma surface treatment of semiconductor surfaces containing Ge or group III-V compound semiconductor materials.Type: ApplicationFiled: October 28, 2013Publication date: April 2, 2015Applicant: APPLIED MATEIRALS, INC.Inventors: Aneesh Nainani, Bhushan N. Zope, Leonid Dorf, Shahid Rauf, Adam Brand, Mathew Abraham, Subhash Deshmukh
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Publication number: 20150083581Abstract: A method of treating a substrate includes directing ions to the substrate along at least one non-zero angle with respect to a perpendicular to a substrate surface in a presence of a reactive ambient containing a reactive species where the substrate includes a surface feature. At least one surface of the surface feature is etched using the ions in combination with the reactive ambient at a first etch rate that is greater than a second etch rate when the ions are directed to the substrate without the reactive ambient and greater than a third etch rate when the reactive ambient is provided to the substrate without the ions.Type: ApplicationFiled: March 31, 2014Publication date: March 26, 2015Applicant: Varian Semiconductor Equipment Associates, Inc.Inventors: Steven R. Sherman, Simon Ruffell, John Hautala, Adam Brand
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Publication number: 20150050800Abstract: Methods of forming a fin structure for a field effect transistor are described. The methods may include the operations of patterning a mandrel on a surface of a substrate, and depositing an epitaxial layer of high-mobility channel material over exposed surfaces of the patterned mandrel. The epitaxial layer leaves a gap between adjacent columns of the patterned mandrel, and a dielectric material may be deposited in the gap between the adjacent columns of the patterned mandrel. The methods may also include planarizing the epitaxial layer to form a planarized epitaxial layer and exposing the columns of the patterned mandrel, and etching at least a portion of the exposed columns of the patterned mandrel and the dielectric material to expose at least a portion of the planarized epitaxial layer that forms the fin structure.Type: ApplicationFiled: May 5, 2014Publication date: February 19, 2015Inventors: Adam Brand, Bingxi Wood, Errol Sanchez, Yihwan Kim, Yi-Chiau Huang, John Boland
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Publication number: 20150031207Abstract: A method of fabricating multiple gate lengths simultaneously on a single chip surface. Hard masking materials which are used as spacers in a field effects transistor generation process are converted into a spacer mask to increase the line density on the chip surface. These hard masking spacers are further patterned by either trimming or by enlarging a portion of a spacer at various locations on a chip surface, to enable formation of multiple gate lengths on a single chip, using a series of process steps which make use of combinations of hydrophobic and hydrophilic materials.Type: ApplicationFiled: July 18, 2014Publication date: January 29, 2015Applicant: Applied Materials, Inc.Inventors: Chris Bencher, Adam Brand
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Patent number: 8864915Abstract: A method of processing a substrate having a transparent conductive oxide disposed thereon, including: exposing the substrate to a first cleaning solution comprising hydrogen peroxide and ammonium citrate; exposing the substrate to a second cleaning solution having a pH within a range from about 6 to about 7, the second cleaning solution different than the first cleaning solution; agitating the second cleaning solution; and depositing a silicon-containing film on the transparent conductive oxide.Type: GrantFiled: August 3, 2011Date of Patent: October 21, 2014Assignee: Applied Materials, Inc.Inventors: Renhe Jia, Adam Brand, Liming Zhang, Dapeng Wang, Tzay-Fa Su, Vijay Parihar