Patents by Inventor Mankoo Lee

Mankoo Lee 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).

  • Patent number: 9245941
    Abstract: A YBCO-based conductive material can be used as an electrode, which can contact a dielectric such as a high k dielectric. Alternatively, a material with a narrow conduction band can be used as an electrode, which can contact a dielectric such as a high k dielectric. By aligning the dielectric with the band gap of the YBCO-based electrode or with the band gap of the narrow-band conductive material electrode, e.g., the conduction band minimum of the dielectric falls into one of the band gaps of the YBCO-based or narrow-band conductive material, thermionic leakage through the dielectric can be reduced, since the excited electrons or holes in the electrode would need higher thermal excitation energy to overcome the band gap before passing through the dielectric layer.
    Type: Grant
    Filed: December 26, 2013
    Date of Patent: January 26, 2016
    Assignee: Intermolecular, Inc.
    Inventors: Sergey Barabash, Mankoo Lee, Dipankar Pramanik
  • Patent number: 9209134
    Abstract: Methods to increase metal interconnect reliability are provided. Methods include forming a conformal barrier layer within an opening in a semiconductor device structure and forming a copper alloy material above the conformal barrier layer. Next, removing the copper alloy material that extends beyond the opening. Removing native oxide from a top surface of the copper alloy material. Further, annealing or applying a plasma treatment to the copper alloy material. Finally, forming a capping layer above the copper alloy material. Notably, near the top of the copper alloy material, smaller copper grain growth may be present. Furthermore, more non-copper alloy atoms are present near the top of the copper alloy material than the bulk of the copper alloy material.
    Type: Grant
    Filed: May 29, 2013
    Date of Patent: December 8, 2015
    Assignee: Intermolecular, Inc.
    Inventor: Mankoo Lee
  • Publication number: 20150262663
    Abstract: Non linear current response circuits can be used in embedded resistive memory cell for reducing power consumption, together with improving reliability of the memory array. The non linear current response circuits can include two back to back leaky PIN diodes, two parallel anti-directional PIN diodes, two back to back Zener-type metal oxide diodes, or ovonic switching elements, along with current limiting resistor for standby power reduction at the low voltage region. Also, the proposed embedded ReRAM implementation methods based upon 1T2D1R scheme can be integrated into the advanced FEOL process technologies including vertical pillar transistor and/or 3D fin-shaped field effect transistor (FinFET) for realizing a highly compact cell density.
    Type: Application
    Filed: June 2, 2015
    Publication date: September 17, 2015
    Inventors: Mankoo Lee, Tony P. Chiang, Dipankar Pramanik
  • Patent number: 9076523
    Abstract: Non linear current response circuits can be used in embedded resistive memory cell for reducing power consumption, together with improving reliability of the memory array. The non linear current response circuits can include two back to back leaky PIN diodes, two parallel anti-directional PIN diodes, two back to back Zener-type metal oxide diodes, or ovonic switching elements, along with current limiting resistor for standby power reduction at the low voltage region. Also, the proposed embedded ReRAM implementation methods based upon 1T2D1R scheme can be integrated into the advanced FEOL process technologies including vertical pillar transistor and/or 3D fin-shaped field effect transistor (FinFET) for realizing a highly compact cell density.
    Type: Grant
    Filed: December 13, 2012
    Date of Patent: July 7, 2015
    Assignee: Intermolecular, Inc.
    Inventors: Mankoo Lee, Tony Chiang, Dipankar Pramanik
  • Patent number: 9019744
    Abstract: Steering elements suitable for memory device applications can have low leakage currents at low voltages to reduce sneak current paths for non selected devices, and high leakage currents at high voltages to minimize voltage drops during device switching. In some embodiments, the steering element can include a first electrode, a second electrode, and a graded dielectric layer sandwiched between the two electrodes. The graded dielectric layer can include a varied composition from the first electrode to the second electrode. Graded energy level at the top and/or at the bottom of the band gap, which can be a result of the graded dielectric layer composition, and/or the work function of the electrodes can be configured to suppress tunneling and thermionic current in an off-state of the steering element and/or to maximize a ratio of the tunneling and thermionic currents in an on-state and in an off-state of the steering element.
    Type: Grant
    Filed: December 27, 2012
    Date of Patent: April 28, 2015
    Assignee: Intermolecular, Inc.
    Inventors: Sergey Barabash, Mankoo Lee, Dipankar Pramanik
  • Patent number: 8987865
    Abstract: A resistor structure incorporated into a resistive switching memory cell or device to form memory devices with improved device performance and lifetime is provided. The resistor structure may be a two-terminal structure designed to reduce the maximum current flowing through a memory device. A method is also provided for making such memory device. The method includes depositing a resistor structure and depositing a variable resistance layer of a resistive switching memory cell of the memory device, where the resistor structure is disposed in series with the variable resistance layer to limit the switching current of the memory device. The incorporation of the resistor structure is very useful in obtaining desirable levels of device switching currents that meet the switching specification of various types of memory devices. The memory devices may be formed as part of a high-capacity nonvolatile memory integrated circuit, which can be used in various electronic devices.
    Type: Grant
    Filed: May 27, 2014
    Date of Patent: March 24, 2015
    Assignees: Intermolecular, Inc., Kabushiki Kaisha Toshiba, SanDisk 3D LLC
    Inventors: Dipankar Pramanik, Tony P. Chiang, Mankoo Lee
  • Publication number: 20150079727
    Abstract: Embodiments described herein provide improvements to indium-gallium-zinc oxide devices, such as amorphous IGZO thin film transistors, and methods for forming such devices. A relatively thin a-IGZO channel may be utilized. A plasma treatment chemical precursor passivation may be provided to the front-side a-IGZO interface. High-k dielectric materials may be used in the etch-stop layer at the back-side a-IGZO interface. A barrier layer may be formed above the gate electrode before the gate dielectric layer is deposited. The conventional etch-stop layer, typically formed before the source and drain regions are defined, may be replaced by a pre-passivation layer that is formed after the source and drain regions are defined and may include multiple sub-layers.
    Type: Application
    Filed: September 17, 2013
    Publication date: March 19, 2015
    Applicant: Intermolecular, Inc.
    Inventors: Mankoo Lee, Charlene Chen, Tony P. Chiang, Dipankar Pramanik
  • Patent number: 8871601
    Abstract: Embodiments of the present invention include diffusion barriers, methods for forming the barriers, and semiconductor devices utilizing the barriers. The diffusion barrier comprises a self-assembled monolayer (SAM) on a semiconductor substrate, where one surface of the SAM is disposed in contact with and covalently bonded to the semiconductor substrate, and one surface of the monolayer is disposed in contact with and covalently bonded to a metal layer. In some embodiments, the barrier comprises an assembly of one or more monomeric subunits of the following structure: Si—(CnHy)-(LM)m where n is from 1 to 20, y is from 2n?2 to 2n, m is 1 to 3, L is a Group VI element, and M is a metal, such as copper. In some embodiments, (CnHy) can be branched, crosslinked, or cyclic.
    Type: Grant
    Filed: December 27, 2012
    Date of Patent: October 28, 2014
    Assignee: Intermolecular, Inc.
    Inventors: Xuena Zhang, Mankoo Lee, Dipankar Pramanik
  • Publication number: 20140299834
    Abstract: A resistor structure incorporated into a resistive switching memory cell or device to form memory devices with improved device performance and lifetime is provided. The resistor structure may be a two-terminal structure designed to reduce the maximum current flowing through a memory device. A method is also provided for making such memory device. The method includes depositing a resistor structure and depositing a variable resistance layer of a resistive switching memory cell of the memory device, where the resistor structure is disposed in series with the variable resistance layer to limit the switching current of the memory device. The incorporation of the resistor structure is very useful in obtaining desirable levels of device switching currents that meet the switching specification of various types of memory devices. The memory devices may be formed as part of a high-capacity nonvolatile memory integrated circuit, which can be used in various electronic devices.
    Type: Application
    Filed: May 27, 2014
    Publication date: October 9, 2014
    Applicants: Intermolecular Inc., Kabushiki Kaisha Toshiba, SanDisk 3D LLC
    Inventors: Dipankar Pramanik, Tony P. Chiang, Mankoo Lee
  • Patent number: 8853008
    Abstract: FinFETs and methods for making FinFETs are disclosed. A fin is formed on a substrate, wherein the fin has a height greater than 2 to 6 times of its width, a length defining a channel between source and drain ends, and the fin comprises a lightly doped semiconductor. A conformally doped region of counter-doped semiconductor is formed on the fin using methods such as monolayer doping, sacrificial oxide doping, or low energy plasma doping. Halo-doped regions are formed by angled ion implantation. The halo-doped regions are disposed in the lower portion of the source and drain and adjacent to the fin. Energy band barrier regions can be formed at the edges of the halo-doped regions by angled ion implantation.
    Type: Grant
    Filed: July 15, 2013
    Date of Patent: October 7, 2014
    Assignee: Intermolecular, Inc.
    Inventor: Mankoo Lee
  • Publication number: 20140264507
    Abstract: CMOS imaging sensors having fluorine-passivated structures to reduce dark current are disclosed together with methods of making thereof. The CIS comprises an array of pixels on a substrate, each pixel comprising a pinned photodiode, an isolation trench adjacent to the pinned photodiode, and a plurality of transistors. Methods of preparing a CIS comprise providing a source of fluorine (F) atoms, and annealing in the presence of the source of F atoms. After the annealing, at least one silicon-containing surface or region in the CIS comprises Si—F bonds and is fluorine passivated.
    Type: Application
    Filed: December 20, 2013
    Publication date: September 18, 2014
    Applicant: Intermolecular, Inc.
    Inventors: Mankoo Lee, Sergey Barabash, Tony P. Chiang, Dipankar Pramanik
  • Publication number: 20140273427
    Abstract: A YBCO-based conductive material can be used as an electrode, which can contact a dielectric such as a high k dielectric. Alternatively, a material with a narrow conduction band can be used as an electrode, which can contact a dielectric such as a high k dielectric. By aligning the dielectric with the band gap of the YBCO-based electrode or with the band gap of the narrow-band conductive material electrode, e.g., the conduction band minimum of the dielectric falls into one of the band gaps of the YBCO-based or narrow-band conductive material, thermionic leakage through the dielectric can be reduced, since the excited electrons or holes in the electrode would need higher thermal excitation energy to overcome the band gap before passing through the dielectric layer.
    Type: Application
    Filed: December 26, 2013
    Publication date: September 18, 2014
    Applicant: Intermolecular, Inc.
    Inventors: Sergey Barabash, Mankoo Lee, Dipankar Pramanik
  • Publication number: 20140264871
    Abstract: Methods to increase metal interconnect reliability are provided. Methods include forming a conformal barrier layer within an opening in a semiconductor device structure and forming a copper alloy material above the conformal barrier layer. Next, removing the copper alloy material that extends beyond the opening. Removing native oxide from a top surface of the copper alloy material. Further, annealing or applying a plasma treatment to the copper alloy material. Finally, forming a capping layer above the copper alloy material. Notably, near the top of the copper alloy material, smaller copper grain growth may be present. Furthermore, more non-copper alloy atoms are present near the top of the copper alloy material than the bulk of the copper alloy material.
    Type: Application
    Filed: May 29, 2013
    Publication date: September 18, 2014
    Applicant: Intermolecular, Inc.
    Inventor: Mankoo Lee
  • Publication number: 20140183737
    Abstract: Embodiments of the present invention include diffusion barriers, methods for forming the barriers, and semiconductor devices utilizing the barriers. The diffusion barrier comprises a self-assembled monolayer (SAM) on a semiconductor substrate, where one surface of the SAM is disposed in contact with and covalently bonded to the semiconductor substrate, and one surface of the monolayer is disposed in contact with and covalently bonded to a metal layer. In some embodiments, the barrier comprises an assembly of one or more monomeric subunits of the following structure: Si—(CnHy) (LM), where n is from 1 to 20, y is from 2n?2 to 2n, m is 1 to 3, L is a Group VI element, and M is a metal, such as copper. In some embodiments, (CnHy) can be branched, crosslinked, or cyclic.
    Type: Application
    Filed: December 27, 2012
    Publication date: July 3, 2014
    Applicant: INTERMOLECULAR, INC.
    Inventors: Xuena Zhang, Mankoo Lee, Dipankar Pramanik
  • Publication number: 20140185357
    Abstract: Steering elements suitable for memory device applications can have low leakage currents at low voltages to reduce sneak current paths for non selected devices, and high leakage currents at high voltages to minimize voltage drops during device switching. In some embodiments, the steering element can include a first electrode, a second electrode, and a graded dielectric layer sandwiched between the two electrodes. The graded dielectric layer can include a varied composition from the first electrode to the second electrode. Graded energy level at the top and/or at the bottom of the band gap, which can be a result of the graded dielectric layer composition, and/or the work function of the electrodes can be configured to suppress tunneling and thermionic current in an off-state of the steering element and/or to maximize a ratio of the tunneling and thermionic currents in an on-state and in an off-state of the steering element.
    Type: Application
    Filed: December 27, 2012
    Publication date: July 3, 2014
    Applicant: Intermolecular, Inc.
    Inventors: Sergey Barabash, Mankoo Lee, Dipankar Pramanik
  • Publication number: 20140166107
    Abstract: Methods for improving the efficiency of solar cells are disclosed. A solar cell consistent with the present disclosure includes a back contact metal layer disposed on a substrate. The solar cell also includes an electron reflector material(s) layer formed on the back contact metal layer and an absorber material(s) layer disposed on the electron reflector material(s) layer. In addition, the solar cell includes a buffer material(s) layer formed on the absorber material(s) layer wherein the electron reflector material(s) layer, absorber material(s) layer, and buffer material(s) layer form a pn junction within the solar cell. Furthermore, a TCO material(s) layer is formed on the buffer material(s) layer. In addition, the front contact layer is formed on the TCO material(s) layer.
    Type: Application
    Filed: December 13, 2012
    Publication date: June 19, 2014
    Applicant: INTERMOLECULAR, INC.
    Inventors: Mankoo Lee, Sergey Barabash, Tony P. Chiang, Dipankar Pramanik
  • Publication number: 20140169062
    Abstract: Non linear current response circuits can be used in embedded resistive memory cell for reducing power consumption, together with improving reliability of the memory array. The non linear current response circuits can include two back to back leaky PIN diodes, two parallel anti-directional PIN diodes, two back to back Zener-type metal oxide diodes, or ovonic switching elements, along with current limiting resistor for standby power reduction at the low voltage region. Also, the proposed embedded ReRAM implementation methods based upon 1T2D1R scheme can be integrated into the advanced FEOL process technologies including vertical pillar transistor and/or 3D fin-shaped field effect transistor (FinFET) for realizing a highly compact cell density.
    Type: Application
    Filed: December 13, 2012
    Publication date: June 19, 2014
    Applicant: INTERMOLECULAR, INC.
    Inventors: Mankoo Lee, Tony Chiang, Dipankar Pramanik
  • Patent number: 8748237
    Abstract: A resistor structure incorporated into a resistive switching memory cell or device to form memory devices with improved device performance and lifetime is provided. The resistor structure may be a two-terminal structure designed to reduce the maximum current flowing through a memory device. A method is also provided for making such memory device. The method includes depositing a resistor structure and depositing a variable resistance layer of a resistive switching memory cell of the memory device, where the resistor structure is disposed in series with the variable resistance layer to limit the switching current of the memory device. The incorporation of the resistor structure is very useful in obtaining desirable levels of device switching currents that meet the switching specification of various types of memory devices. The memory devices may be formed as part of a high-capacity nonvolatile memory integrated circuit, which can be used in various electronic devices.
    Type: Grant
    Filed: October 28, 2013
    Date of Patent: June 10, 2014
    Assignees: Intermolecular, Inc., Kabushiki Kaisha Toshiba, SanDisk 3D LLC
    Inventors: Dipankar Pramanik, Tony P. Chiang, Mankoo Lee
  • Publication number: 20140109030
    Abstract: Methods are described for performing detailed Technology Computer Aided Design (TCAD) simulations of electromigration (EM) failure in a standard test structure suitable for the simulation of integrated circuit (IC) conductive interconnects. Methods are described for performing these simulation so as to extract from the results of these simulations criteria substantially underlying the EM lifetime of interconnects, thereby permitting rapid diagnosis of potential sites of EM failure early in the IC design and fabrication process, and thereby allowing more rapid development of reliable ICs robust against EM failure. Specific results for EM failure criteria in Cu interconnects are also presented.
    Type: Application
    Filed: July 31, 2013
    Publication date: April 17, 2014
    Applicant: Intermolecular, Inc.
    Inventors: Mankoo Lee, Tony P. Chiang, Dipankar Pramanik
  • Publication number: 20140051223
    Abstract: A resistor structure incorporated into a resistive switching memory cell or device to form memory devices with improved device performance and lifetime is provided. The resistor structure may be a two-terminal structure designed to reduce the maximum current flowing through a memory device. A method is also provided for making such memory device. The method includes depositing a resistor structure and depositing a variable resistance layer of a resistive switching memory cell of the memory device, where the resistor structure is disposed in series with the variable resistance layer to limit the switching current of the memory device. The incorporation of the resistor structure is very useful in obtaining desirable levels of device switching currents that meet the switching specification of various types of memory devices. The memory devices may be formed as part of a high-capacity nonvolatile memory integrated circuit, which can be used in various electronic devices.
    Type: Application
    Filed: October 28, 2013
    Publication date: February 20, 2014
    Applicants: Intermolecular Inc., SanDisk 3D LLC, Kabushiki Kaisha Toshiba
    Inventors: Dipankar Pramanik, Tony P. Chiang, Mankoo Lee