Patents by Inventor Minrui Yu

Minrui Yu 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).

  • Publication number: 20240306391
    Abstract: Two-dimensional (2D) materials formed in very thin layers improve the operation of semiconductor devices. However, forming a contact on 2D material tends to damage and penetrate the 2D material. A relatively gentle etch process has been developed that is very selective to the 2D material and allows vertical holes to be etched down to the 2D material without damaging or penetrating the 2D material. A low-power deposition process forms a protective liner when performing the metal fill to further prevent damage to the 2D material when forming the metal contacts in the holes. These processes allow a vertical metal contact to be formed on a planar 2D material or a vertical sidewall contact be formed in a 3D NAND without damaging the 2D material. This increases the contact area, reduces the contact resistance, and improves the performance of the 2D material in the device.
    Type: Application
    Filed: March 6, 2024
    Publication date: September 12, 2024
    Applicant: Applied Materials, Inc.
    Inventors: Hao-Ling Tang, Arvind Kumar, Mahendra Pakala, Keith Tatseun Wong, Yi-Hsuan Hsiao, Dongqing Yang, Mark Conrad, Rio Soedibyo, Minrui Yu
  • Patent number: 11965236
    Abstract: Methods for forming a nickel silicide material on a substrate are disclosed. The methods include depositing a first nickel silicide seed layer atop a substrate at a temperature of about 15° C. to about 27° C., annealing the first nickel silicide seed layer at a temperature of 400° C. or less such as over 350° C.; and depositing a second nickel silicide layer atop the first nickel silicide seed layer at a temperature of about 15° C. to about 27° C. to form the nickel silicide material.
    Type: Grant
    Filed: July 15, 2019
    Date of Patent: April 23, 2024
    Assignee: APPLIED MATERIALS, INC.
    Inventors: Minrui Yu, He Ren, Mehul Naik
  • Publication number: 20230389441
    Abstract: Embodiments of the present disclosure generally include spin-orbit torque magnetoresistive random-access memory (SOT-MRAM) devices and methods of manufacture thereof. The SOT-MRAM devices described herein include an SOT layer laterally aligned with a magnetic tunnel junction (MTJ) stack and formed over a trench in an interconnect. Thus, the presence of the SOT layer outside the area of the MTJ stack is eliminated, and electric current passes from the interconnect to the SOT layer by SOT-interconnect overlap. The devices and methods described herein reduce the formation of shunting current and enable the MTJ to self-align with the SOT layer in a single etching process.
    Type: Application
    Filed: August 8, 2023
    Publication date: November 30, 2023
    Applicant: Applied Materials, Inc.
    Inventors: Minrui YU, Wenhui WANG, Jaesoo AHN, Jong Mun KIM, Sahil PATEL, Lin XUE, Chando PARK, Mahendra PAKALA, Chentsau Chris YING, Huixiong DAI, Christopher S. NGAI
  • Patent number: 11723283
    Abstract: Embodiments of the present disclosure generally include spin-orbit torque magnetoresistive random-access memory (SOT-MRAM) devices and methods of manufacture thereof. The SOT-MRAM devices described herein include an SOT layer laterally aligned with a magnetic tunnel junction (MTJ) stack and formed over a trench in an interconnect. Thus, the presence of the SOT layer outside the area of the MTJ stack is eliminated, and electric current passes from the interconnect to the SOT layer by SOT-interconnect overlap. The devices and methods described herein reduce the formation of shunting current and enable the MTJ to self-align with the SOT layer in a single etching process.
    Type: Grant
    Filed: May 11, 2020
    Date of Patent: August 8, 2023
    Assignee: Applied Materials, Inc.
    Inventors: Minrui Yu, Wenhui Wang, Jaesoo Ahn, Jong Mun Kim, Sahil Patel, Lin Xue, Chando Park, Mahendra Pakala, Chentsau Chris Ying, Huixiong Dai, Christopher S. Ngai
  • Patent number: 11289342
    Abstract: Exemplary methods of etching semiconductor substrates may include flowing a halogen-containing precursor into a processing region of a semiconductor processing chamber. The processing region may house a substrate having a conductive material and an overlying mask material. The conductive material may be characterized by a first surface in contact with the mask material, and the mask material may define an edge region of the conductive material. The methods may include contacting the edge region of the conductive material with the halogen-containing precursor and the oxygen-containing precursor. The methods may include etching in a first etching operation the edge region of the conductive material to a partial depth through the conductive material to produce a footing of conductive material protruding along the edge region of the conductive material. The methods may also include removing the footing of conductive material in a second etching operation.
    Type: Grant
    Filed: June 15, 2020
    Date of Patent: March 29, 2022
    Assignee: Applied Materials, Inc.
    Inventors: He Ren, Jong Mun Kim, Maximillian Clemons, Minrui Yu, Mehul Naik, Chentsau Ying
  • Patent number: 11145808
    Abstract: Embodiments of the disclosure provide methods and apparatus for fabricating magnetic tunnel junction (MTJ) structures on a substrate for MRAM applications. In one embodiment, a method for forming a magnetic tunnel junction (MTJ) device structure includes performing a patterning process by an ion beam etching process in a processing chamber to pattern a film stack disposed on a substrate, wherein the film stack comprises a reference layer, a tunneling barrier layer and a free layer disposed on the tunneling barrier, and determining an end point for the patterning process.
    Type: Grant
    Filed: November 12, 2019
    Date of Patent: October 12, 2021
    Assignee: Applied Materials, Inc.
    Inventors: Jong Mun Kim, Minrui Yu, Chando Park, Mang-Mang Ling, Jaesoo Ahn, Chentsau Chris Ying, Srinivas D. Nemani, Mahendra Pakala, Ellie Y. Yieh
  • Publication number: 20210143323
    Abstract: Embodiments of the disclosure provide methods and apparatus for fabricating magnetic tunnel junction (MTJ) structures on a substrate for MRAM applications. In one embodiment, a method for forming a magnetic tunnel junction (MTJ) device structure includes performing a patterning process by an ion beam etching process in a processing chamber to pattern a film stack disposed on a substrate, wherein the film stack comprises a reference layer, a tunneling barrier layer and a free layer disposed on the tunneling barrier, and determining an end point for the patterning process.
    Type: Application
    Filed: November 12, 2019
    Publication date: May 13, 2021
    Inventors: Jong Mun KIM, Minrui YU, Chando PARK, Mang-Mang LING, Jaesoo AHN, Chentsau Chris YING, Srinivas D. NEMANI, Mahendra PAKALA, Ellie Y. YIEH
  • Patent number: 10916433
    Abstract: Methods for forming low resistivity metal silicide interconnects using one or a combination of a physical vapor deposition (PVD) process and an anneal process are described herein. In one embodiment, a method of forming a plurality of wire interconnects includes flowing a sputtering gas into a processing volume of a processing chamber, applying a power to a target disposed in the processing volume, forming a plasma in a region proximate to the sputtering surface of the target, and depositing the metal and silicon layer on the surface of the substrate. Herein, the first target comprises a metal silicon alloy and a sputtering surface thereof is angled with respect to a surface of the substrate at between about 10° and about 50°.
    Type: Grant
    Filed: March 27, 2019
    Date of Patent: February 9, 2021
    Assignee: APPLIED MATERIALS, INC.
    Inventors: He Ren, Maximillian Clemons, Mei-Yee Shek, Minrui Yu, Bencherki Mebarki, Mehul B. Naik, Chentsau Ying, Srinivas D. Nemani
  • Patent number: 10879177
    Abstract: The present disclosure provides a film stack structure formed on a substrate and methods for forming the film stack structure on the substrate. In one embodiment, the method for forming a film stack structure on a substrate includes depositing a first adhesion layer on an oxide layer formed on the substrate and depositing a metal layer on the first adhesion layer, wherein the first adhesion layer and the metal layer form a stress neutral structure.
    Type: Grant
    Filed: June 19, 2015
    Date of Patent: December 29, 2020
    Assignee: APPLIED MATERIALS, INC.
    Inventors: Minrui Yu, Kai Ma, Thomas Kwon, Kaushal K. Singh, Er-Xuan Ping
  • Publication number: 20200350178
    Abstract: Exemplary methods of etching semiconductor substrates may include flowing a halogen-containing precursor into a processing region of a semiconductor processing chamber. The processing region may house a substrate having a conductive material and an overlying mask material. The conductive material may be characterized by a first surface in contact with the mask material, and the mask material may define an edge region of the conductive material. The methods may include contacting the edge region of the conductive material with the halogen-containing precursor and the oxygen-containing precursor. The methods may include etching in a first etching operation the edge region of the conductive material to a partial depth through the conductive material to produce a footing of conductive material protruding along the edge region of the conductive material. The methods may also include removing the footing of conductive material in a second etching operation.
    Type: Application
    Filed: June 15, 2020
    Publication date: November 5, 2020
    Inventors: He Ren, Jong Mun Kim, Maximillian Clemons, Minrui Yu, Mehul Naik, Chentsau Ying
  • Patent number: 10685849
    Abstract: Exemplary methods of etching semiconductor substrates may include flowing a halogen-containing precursor into a processing region of a semiconductor processing chamber. The processing region may house a substrate having a conductive material and an overlying mask material. The conductive material may be characterized by a first surface in contact with the mask material, and the mask material may define an edge region of the conductive material. The methods may include contacting the edge region of the conductive material with the halogen-containing precursor and the oxygen-containing precursor. The methods may include etching in a first etching operation the edge region of the conductive material to a partial depth through the conductive material to produce a footing of conductive material protruding along the edge region of the conductive material. The methods may also include removing the footing of conductive material in a second etching operation.
    Type: Grant
    Filed: May 1, 2019
    Date of Patent: June 16, 2020
    Assignee: Applied Materials, Inc.
    Inventors: He Ren, Jong Mun Kim, Maximillian Clemons, Minrui Yu, Mehul Naik, Chentsau Ying
  • Patent number: 10651043
    Abstract: Methods for depositing a low resistivity nickel silicide layer used in forming an interconnect and electronic devices formed using the methods are described herein. In one embodiment, a method for depositing a layer includes positioning a substrate on a substrate support in a processing chamber, the processing chamber having a nickel target and a silicon target disposed therein, the substrate facing portions of the nickel target and the silicon target each having an angle of between about 10 degrees and about 50 degrees from the target facing surface of the substrate, flowing a gas into the processing chamber, applying an RF power to the nickel target and concurrently applying a DC power to the silicon target, concurrently sputtering silicon and nickel from the silicon and nickel targets, respectively, and depositing a NixSi1-x layer on the substrate, where x is between about 0.01 and about 0.99.
    Type: Grant
    Filed: August 19, 2019
    Date of Patent: May 12, 2020
    Assignee: APPLIED MATERIALS, INC.
    Inventors: He Ren, Minrui Yu, Mehul B. Naik
  • Publication number: 20200044152
    Abstract: Embodiments of methods for depositing doped transition metal oxides are provided herein. In some embodiments, a method of depositing a doped transition metal oxide layer includes: sputtering a first target comprising a transition metal while providing a source of oxygen atoms; sputtering a second target comprising a dopant element; and forming a doped transition metal oxide layer on a substrate from the sputtered transition metal, oxygen atoms, and dopant element. The first target can be formed from a transition metal or a transition metal oxide.
    Type: Application
    Filed: July 29, 2019
    Publication date: February 6, 2020
    Inventors: MINRUI YU, ANINDITA SEN, VIBHU JINDAL, MICHEL FREI, MAHENDRA PAKALA, MEHUL NAIK, NICOLAS BREIL, MICHAEL CHUDZIK
  • Publication number: 20200024722
    Abstract: Methods for forming a nickel silicide material on a substrate are disclosed. The methods include depositing a first nickel silicide seed layer atop a substrate at a temperature of about 15° C. to about 27° C., annealing the first nickel silicide seed layer at a temperature of 400° C. or less such as over 350° C.; and depositing a second nickel silicide layer atop the first nickel silicide seed layer at a temperature of about 15° C. to about 27° C. to form the nickel silicide material.
    Type: Application
    Filed: July 15, 2019
    Publication date: January 23, 2020
    Inventors: MINRUI YU, HE REN, MEHUL NAIK
  • Publication number: 20190371610
    Abstract: Methods for depositing a low resistivity nickel silicide layer used in forming an interconnect and electronic devices formed using the methods are described herein. In one embodiment, a method for depositing a layer includes positioning a substrate on a substrate support in a processing chamber, the processing chamber having a nickel target and a silicon target disposed therein, the substrate facing portions of the nickel target and the silicon target each having an angle of between about 10 degrees and about 50 degrees from the target facing surface of the substrate, flowing a gas into the processing chamber, applying an RF power to the nickel target and concurrently applying a DC power to the silicon target, concurrently sputtering silicon and nickel from the silicon and nickel targets, respectively, and depositing a NixSi1-x layer on the substrate, where x is between about 0.01 and about 0.99.
    Type: Application
    Filed: August 19, 2019
    Publication date: December 5, 2019
    Inventors: He REN, Minrui YU, Mehul B. NAIK
  • Publication number: 20190311908
    Abstract: Methods for forming low resistivity metal silicide interconnects using one or a combination of a physical vapor deposition (PVD) process and an anneal process are described herein. In one embodiment, a method of forming a plurality of wire interconnects includes flowing a sputtering gas into a processing volume of a processing chamber, applying a power to a target disposed in the processing volume, forming a plasma in a region proximate to the sputtering surface of the target, and depositing the metal and silicon layer on the surface of the substrate. Herein, the first target comprises a metal silicon alloy and a sputtering surface thereof is angled with respect to a surface of the substrate at between about 10° and about 50°.
    Type: Application
    Filed: March 27, 2019
    Publication date: October 10, 2019
    Inventors: He REN, Maximillian CLEMONS, Mei-Yee SHEK, Minrui YU, Bencherki MEBARKI, Mehul B. NAIK, Chentsau YING, Srinivas D. NEMANI
  • Patent number: 10388533
    Abstract: Methods for depositing a low resistivity nickel silicide layer used in forming an interconnect and electronic devices formed using the methods are described herein. In one embodiment, a method for depositing a layer includes positioning a substrate on a substrate support in a processing chamber, the processing chamber having a nickel target and a silicon target disposed therein, the substrate facing portions of the nickel target and the silicon target each having an angle of between about 10 degrees and about 50 degrees from the target facing surface of the substrate, flowing a gas into the processing chamber, applying an RF power to the nickel target and concurrently applying a DC power to the silicon target, concurrently sputtering silicon and nickel from the silicon and nickel targets, respectively, and depositing a NixSi1-x layer on the substrate, where x is between about 0.01 and about 0.99.
    Type: Grant
    Filed: May 24, 2018
    Date of Patent: August 20, 2019
    Assignee: Applied Materials, Inc.
    Inventors: He Ren, Minrui Yu, Mehul B. Naik
  • Publication number: 20180366328
    Abstract: Methods for depositing a low resistivity nickel silicide layer used in forming an interconnect and electronic devices formed using the methods are described herein. In one embodiment, a method for depositing a layer includes positioning a substrate on a substrate support in a processing chamber, the processing chamber having a nickel target and a silicon target disposed therein, the substrate facing portions of the nickel target and the silicon target each having an angle of between about 10 degrees and about 50 degrees from the target facing surface of the substrate, flowing a gas into the processing chamber, applying an RF power to the nickel target and concurrently applying a DC power to the silicon target, concurrently sputtering silicon and nickel from the silicon and nickel targets, respectively, and depositing a NixSi1-x layer on the substrate, where x is between about 0.01 and about 0.99.
    Type: Application
    Filed: May 24, 2018
    Publication date: December 20, 2018
    Inventors: He REN, Minrui YU, Mehul B. NAIK
  • Patent number: 9976120
    Abstract: A scaffold for neurons consists of tubes sized to promote neural growth through the tubes. The tubes may be fixed to a substrate providing electrical or optical paths out from the interior of the tubes from sensors or stimulating probes at one or more locations along the length of the coaxial axons. Steering electrodes at spaces between tubes may be used to selectively promote the growth of interconnections of different axons in a one, two, or three-dimensional fashion.
    Type: Grant
    Filed: September 13, 2010
    Date of Patent: May 22, 2018
    Assignee: Wisconsin Alumni Research Foundation
    Inventors: Robert H. Blick, Justin Williams, Minrui Yu, Yu Huang
  • Patent number: 9575021
    Abstract: A method of forming extremely small pores in a substrate may be used to produce, for example, an apparatus for the study of biological molecules, by providing a small pore in a piezoelectric substrate having electrodes, the latter that may be energized to change the pore dimensions.
    Type: Grant
    Filed: May 14, 2013
    Date of Patent: February 21, 2017
    Assignee: Wisconsin Alumni Research Foundation
    Inventors: Robert H. Blick, Minrui Yu