Patents by Inventor Veeral Hardev

Veeral Hardev 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: 20240255908
    Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.
    Type: Application
    Filed: October 2, 2023
    Publication date: August 1, 2024
    Applicant: Ubiquitous Energy, Inc.
    Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
  • Patent number: 11934165
    Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.
    Type: Grant
    Filed: October 27, 2021
    Date of Patent: March 19, 2024
    Assignee: Ubiquitous Energy, Inc.
    Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
  • Patent number: 11860596
    Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.
    Type: Grant
    Filed: October 27, 2021
    Date of Patent: January 2, 2024
    Assignee: Ubiquitous Energy, Inc.
    Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
  • Patent number: 11824146
    Abstract: Quantum dots and methods of making quantum dots are described. A method begins with forming quantum dots having a core-shell structure with a plurality of ligands on the shell structure. The method includes exchanging the plurality of ligands with a plurality of second ligands. The plurality of second ligands have a weaker binding affinity to the shell structure than the plurality of first ligands. The plurality of second ligands are then exchanged with hydrolyzed alkoxysilane to form a monolayer of hydrolyzed alkoxysilane on a surface of the shell structure. The method includes forming a barrier layer around the shell structure by using the hydrolyzed alkoxysilane as a nucleation center.
    Type: Grant
    Filed: October 27, 2020
    Date of Patent: November 21, 2023
    Assignee: SHOEI CHEMICAL INC.
    Inventors: Shihai Kan, Jay Yamanaga, Charles Hotz, Jason Hartlove, Veeral Hardev, Jian Chen, Christian Ippen, Wenzhou Guo, Robert Wilson
  • Patent number: 11782408
    Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.
    Type: Grant
    Filed: October 27, 2021
    Date of Patent: October 10, 2023
    Assignee: Ubiquitous Energy, Inc.
    Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
  • Publication number: 20220128959
    Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.
    Type: Application
    Filed: October 27, 2021
    Publication date: April 28, 2022
    Applicant: Ubiquitous Energy, Inc.
    Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
  • Publication number: 20220128960
    Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.
    Type: Application
    Filed: October 27, 2021
    Publication date: April 28, 2022
    Applicant: Ubiquitous Energy, Inc.
    Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
  • Publication number: 20220128961
    Abstract: Described herein are systems, methods, devices, and other techniques for implementing smart windows, smart home systems that include smart windows, and user devices and applications for control thereof. A smart window, or photovoltaic window, may include a photovoltaic configured to generate electrical power from incident light onto the photovoltaic window, store the electrical power, and send the electrical power to an electronics package or various electrical loads including a wireless communication system, sensors, or window functions. The photovoltaic window may communicate with various smart home system devices such as hub devices and user devices, which may include the reception of control data at the photovoltaic window and the transmission of sensor data captured by the window sensors.
    Type: Application
    Filed: October 27, 2021
    Publication date: April 28, 2022
    Applicant: Ubiquitous Energy, Inc.
    Inventors: Miles C. Barr, Ian Millard, Rachel Molaro, Susan Stone, Veeral Hardev, Christopher Traverse, Anthony Sagneri, David Maikowski, Edwin Hathaway, Bradley J. Gleeson
  • Patent number: 10985296
    Abstract: Embodiments of a display device including barrier layer coated quantum dots and a method of making the barrier layer coated quantum dots are described. Each of the barrier layer coated quantum dots includes a core-shell structure and a hydrophobic barrier layer disposed on the core-shell structure. The hydrophobic barrier layer is configured to provide a distance between the core-shell structure of one of the quantum dots with the core-shell structures of other quantum dots that are in substantial contact with the one of the quantum dots. The method for making the barrier layer coated quantum dots includes forming reverse micro-micelles using surfactants and incorporating quantum dots into the reverse micro-micelles. The method further includes individually coating the incorporated quantum dots with a barrier layer and isolating the barrier layer coated quantum dots with the surfactants of the reverse micro-micelles disposed on the barrier layer.
    Type: Grant
    Filed: November 27, 2019
    Date of Patent: April 20, 2021
    Assignee: Nanosys, Inc.
    Inventors: Jason Hartlove, Veeral Hardev, Shihai Kan, Jian Chen, Jay Yamanaga, Christian Ippen, Wenzhuo Guo, Charles Hotz, Robert Wilson
  • Publication number: 20210043814
    Abstract: Quantum dots and methods of making quantum dots are described. A method begins with forming quantum dots having a core-shell structure with a plurality of ligands on the shell structure. The method includes exchanging the plurality of ligands with a plurality of second ligands. The plurality of second ligands have a weaker binding affinity to the shell structure than the plurality of first ligands. The plurality of second ligands are then exchanged with hydrolyzed alkoxysilane to form a monolayer of hydrolyzed alkoxysilane on a surface of the shell structure. The method includes forming a barrier layer around the shell structure by using the hydrolyzed alkoxysilane as a nucleation center.
    Type: Application
    Filed: October 27, 2020
    Publication date: February 11, 2021
    Applicant: Nanosys, Inc.
    Inventors: Shihai KAN, Jay YAMANAGA, Charles HOTZ, Jason HARTLOVE, Veeral HARDEV, Jian CHEN, Christian IPPEN, Wenzhou GUO, Robert WILSON
  • Patent number: 10854798
    Abstract: Quantum dots and methods of making quantum dots are described. A method begins with forming quantum dots having a core-shell structure with a plurality of ligands on the shell structure. The method includes exchanging the plurality of ligands with a plurality of second ligands. The plurality of second ligands have a weaker binding affinity to the shell structure than the plurality of first ligands. The plurality of second ligands are then exchanged with hydrolyzed alkoxysilane to form a monolayer of hydrolyzed alkoxysilane on a surface of the shell structure. The method includes forming a barrier layer around the shell structure by using the hydrolyzed alkoxysilane as a nucleation center.
    Type: Grant
    Filed: October 1, 2019
    Date of Patent: December 1, 2020
    Assignee: Nanosys, Inc.
    Inventors: Shihai Kan, Jay Yamanaga, Charles Hotz, Jason Hartlove, Veeral Hardev, Jian Chen, Christian Ippen, Wenzhou Guo, Robert Wilson
  • Publication number: 20200098951
    Abstract: Embodiments of a display device including barrier layer coated quantum dots and a method of making the barrier layer coated quantum dots are described. Each of the barrier layer coated quantum dots includes a core-shell structure and a hydrophobic barrier layer disposed on the core-shell structure. The hydrophobic barrier layer is configured to provide a distance between the core-shell structure of one of the quantum dots with the core-shell structures of other quantum dots that are in substantial contact with the one of the quantum dots. The method for making the barrier layer coated quantum dots includes forming reverse micro-micelles using surfactants and incorporating quantum dots into the reverse micro-micelles. The method further includes individually coating the incorporated quantum dots with a barrier layer and isolating the barrier layer coated quantum dots with the surfactants of the reverse micro-micelles disposed on the barrier layer.
    Type: Application
    Filed: November 27, 2019
    Publication date: March 26, 2020
    Applicant: Nanosys, Inc.
    Inventors: Jason HARTLOVE, Veeral HARDEV, Shihai KAN, Jian CHEN, Jay YAMANAGA, Christian IPPEN, Wenzhuo GUO, Charles HOTZ, Robert WILSON
  • Publication number: 20200035881
    Abstract: Quantum dots and methods of making quantum dots are described. A method begins with forming quantum dots having a core-shell structure with a plurality of ligands on the shell structure. The method includes exchanging the plurality of ligands with a plurality of second ligands. The plurality of second ligands have a weaker binding affinity to the shell structure than the plurality of first ligands. The plurality of second ligands are then exchanged with hydrolyzed alkoxysilane to form a monolayer of hydrolyzed alkoxysilane on a surface of the shell structure. The method includes forming a barrier layer around the shell structure by using the hydrolyzed alkoxysilane as a nucleation center.
    Type: Application
    Filed: October 1, 2019
    Publication date: January 30, 2020
    Applicant: Nanosys, Inc.
    Inventors: Shihai KAN, Jay YAMANAGA, Charles HOTZ, Jason HARTLOVE, Veeral HARDEV, Jian CHEN, Christian IPPEN, Wenzhou GUO, Robert WILSON
  • Patent number: 10497841
    Abstract: Embodiments of a display device including barrier layer coated quantum dots and a method of making the barrier layer coated quantum dots are described. Each of the barrier layer coated quantum dots includes a core-shell structure and a hydrophobic barrier layer disposed on the core-shell structure. The hydrophobic barrier layer is configured to provide a distance between the core-shell structure of one of the quantum dots with the core-shell structures of other quantum dots that are in substantial contact with the one of the quantum dots. The method for making the barrier layer coated quantum dots includes forming reverse micro-micelles using surfactants and incorporating quantum dots into the reverse micro-micelles. The method further includes individually coating the incorporated quantum dots with a barrier layer and isolating the barrier layer coated quantum dots with the surfactants of the reverse micro-micelles disposed on the barrier layer.
    Type: Grant
    Filed: October 31, 2018
    Date of Patent: December 3, 2019
    Assignee: Nanosys, Inc.
    Inventors: Jason Hartlove, Veeral Hardev, Shihai Kan, Jian Chen, Jay Yamanaga, Christian Ippen, Wenzhou Guo, Charles Hotz, Robert Wilson
  • Patent number: 10475971
    Abstract: Quantum dots and methods of making quantum dots are described. A method begins with forming quantum dots having a core-shell structure with a plurality of ligands on the shell structure. The method includes exchanging the plurality of ligands with a plurality of second ligands. The plurality of second ligands have a weaker binding affinity to the shell structure than the plurality of first ligands. The plurality of second ligands are then exchanged with hydrolyzed alkoxysilane to form a monolayer of hydrolyzed alkoxysilane on a surface of the shell structure. The method includes forming a barrier layer around the shell structure by using the hydrolyzed alkoxysilane as a nucleation center.
    Type: Grant
    Filed: July 19, 2018
    Date of Patent: November 12, 2019
    Assignee: Nanosys, Inc.
    Inventors: Shihai Kan, Jay Yamanaga, Charles Hotz, Jason Hartlove, Veeral Hardev, Jian Chen, Christian Ippen, Wenzhuo Guo, Robert Wilson
  • Patent number: 10243114
    Abstract: Embodiments of a display device including barrier layer coated quantum dots and a method of making the barrier layer coated quantum dots are described. Each of the barrier layer coated quantum dots includes a core-shell structure and a hydrophobic barrier layer disposed on the core-shell structure. The hydrophobic barrier layer is configured to provide a distance between the core-shell structure of one of the quantum dots with the core-shell structures of other quantum dots that are in substantial contact with the one of the quantum dots. The method for making the barrier layer coated quantum dots includes forming reverse micro-micelles using surfactants and incorporating quantum dots into the reverse micro-micelles. The method further includes individually coating the incorporated quantum dots with a barrier layer and isolating the barrier layer coated quantum dots with the surfactants of the reverse micro-micelles disposed on the barrier layer.
    Type: Grant
    Filed: March 5, 2018
    Date of Patent: March 26, 2019
    Assignee: Nanosys, Inc.
    Inventors: Jason Hartlove, Veeral Hardev, Shihai Kan, Jian Chen, Jay Yamanaga, Christian Ippen, Wenzhuo Guo, Charles Hotz, Robert Wilson
  • Publication number: 20190088830
    Abstract: Embodiments of a display device including barrier layer coated quantum dots and a method of making the barrier layer coated quantum dots are described. Each of the barrier layer coated quantum dots includes a core-shell structure and a hydrophobic barrier layer disposed on the core-shell structure. The hydrophobic barrier layer is configured to provide a distance between the core-shell structure of one of the quantum dots with the core-shell structures of other quantum dots that are in substantial contact with the one of the quantum dots. The method for making the barrier layer coated quantum dots includes forming reverse micro-micelles using surfactants and incorporating quantum dots into the reverse micro-micelles. The method further includes individually coating the incorporated quantum dots with a barrier layer and isolating the barrier layer coated quantum dots with the surfactants of the reverse micro-micelles disposed on the barrier layer.
    Type: Application
    Filed: October 31, 2018
    Publication date: March 21, 2019
    Applicant: Nanosys, Inc.
    Inventors: Jason HARTLOVE, Veeral HARDEV, Shihai KAN, Jian CHEN, Jay YAMANAGA, Christian IPPEN, Wenzhou GUO, Charles HOTZ, Robert WILSON
  • Publication number: 20190036480
    Abstract: An electricity generating window includes a first glass pane, a second glass pane, and a photovoltaic device formed on an inner surface of the first glass pane or an inner surface of the second glass pane. The photovoltaic device includes a first transparent electrode layer, a second transparent electrode layer, and one or more active layers configured to transmit visible light and absorb ultraviolet or near-infrared light. In some embodiments, the electricity generating window also includes a spacer configured to separate the first glass pane and the second glass pane by a cavity. In some embodiments, the electricity generating window also includes one or more functional layers, such as an electrochromic layer or a low-E layer for reflecting infrared light.
    Type: Application
    Filed: January 10, 2018
    Publication date: January 31, 2019
    Applicant: Ubiquitous Energy, Inc.
    Inventors: Miles Barr, Ian Millard, Rachel Molaro, Richa Pandey, Veeral Hardev, Damon Hess
  • Publication number: 20180331262
    Abstract: Quantum dots and methods of making quantum dots are described. A method begins with forming quantum dots having a core-shell structure with a plurality of ligands on the shell structure. The method includes exchanging the plurality of ligands with a plurality of second ligands. The plurality of second ligands have a weaker binding affinity to the shell structure than the plurality of first ligands. The plurality of second ligands are then exchanged with hydrolyzed alkoxysilane to form a monolayer of hydrolyzed alkoxysilane on a surface of the shell structure. The method includes forming a barrier layer around the shell structure by using the hydrolyzed alkoxysilane as a nucleation center.
    Type: Application
    Filed: July 19, 2018
    Publication date: November 15, 2018
    Applicant: Nanosys, Inc.
    Inventors: Shihai KAN, Jay YAMANAGA, Charles HOTZ, Jason HARTLOVE, Veeral HARDEV, Jian CHEN, Christian IPPEN, Wenzhuo GUO, Robert WILSON
  • Patent number: 10128417
    Abstract: Embodiments of a display device including barrier layer coated quantum dots and a method of making the barrier layer coated quantum dots are described. Each of the barrier layer coated quantum dots includes a core-shell structure and a hydrophobic barrier layer disposed on the core-shell structure. The hydrophobic barrier layer is configured to provide a distance between the core-shell structure of one of the quantum dots with the core-shell structures of other quantum dots that are in substantial contact with the one of the quantum dots. The method for making the barrier layer coated quantum dots includes forming reverse micro-micelles using surfactants and incorporating quantum dots into the reverse micro-micelles. The method further includes individually coating the incorporated quantum dots with a barrier layer and isolating the barrier layer coated quantum dots with the surfactants of the reverse micro-micelles disposed on the barrier layer.
    Type: Grant
    Filed: December 2, 2016
    Date of Patent: November 13, 2018
    Assignee: Nanosys, Inc.
    Inventors: Jason Hartlove, Veeral Hardev, Shihai Kan, Jian Chen, Jay Yamanaga, Christian Ippen, Wenzhuo Guo, Charles Hotz, Robert Wilson