Patents Assigned to Kateeva, Inc.
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Publication number: 20210343602Abstract: An ink jet process is used to deposit a material layer to a desired thickness. Layout data is converted to per-cell grayscale values, each representing ink volume to be locally delivered. The grayscale values are used to generate a halftone pattern to deliver variable ink volume (and thickness) to the substrate. The halftoning provides for a relatively continuous layer (e.g., without unintended gaps or holes) while providing for variable volume and, thus, contributes to variable ink/material buildup to achieve desired thickness. The ink is jetted as liquid or aerosol that suspends material used to form the material layer, for example, an organic material used to form an encapsulation layer for a flat panel device. The deposited layer is then cured or otherwise finished to complete the process.Type: ApplicationFiled: July 19, 2021Publication date: November 4, 2021Applicant: Kateeva, Inc.Inventors: Eliyahu Vronsky, Nahid Harjee
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Publication number: 20210339543Abstract: An inkjet printer is described. The inkjet printer has a substrate holder assembly that includes a base member having a long axis in a first direction and a short axis in a second direction perpendicular to the first direction; a contact member coupled to the base member, the contact member having a long axis in the first direction and a short axis in the second direction; a holder carriage coupled to the base member; a linear extender coupled between the base member and the contact member and extending in a third direction intersecting with the first direction and the second direction from the base member toward the contact member; and a flex member coupled to the base member, extending in the second direction between the linear extender and the contact member, and having a flex direction in a direction perpendicular to the first direction and the second direction.Type: ApplicationFiled: July 16, 2021Publication date: November 4, 2021Applicant: Kateeva, Inc.Inventors: Digby Pun, Alexander Sou-Kang Ko, David C. Donovan
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Publication number: 20210331499Abstract: The present teachings relate to various embodiments of an hermetically-sealed gas enclosure assembly and system that can be readily transportable and assemblable and provide for maintaining a minimum inert gas volume and maximal access to various devices and apparatuses enclosed therein. Various embodiments of an hermetically-sealed gas enclosure assembly and system of the present teachings can have a gas enclosure assembly constructed in a fashion that minimizes the internal volume of a gas enclosure assembly, and at the same time optimizes the working space to accommodate a variety of footprints of various OLED printing systems. Various embodiments of a gas enclosure assembly so constructed additionally provide ready access to the interior of a gas enclosure assembly from the exterior during processing and readily access to the interior for maintenance, while minimizing downtime.Type: ApplicationFiled: May 13, 2021Publication date: October 28, 2021Applicant: Kateeva, Inc.Inventors: Justin Mauck, Alexander Sou-Kang Ko, Eliyahu Vronsky, Shandon Alderson
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Patent number: 11155728Abstract: Print materials described herein include a first polymerization initiator comprising an initiator material having a thermal decomposition rate and a peak photo-initiated decomposition rate, wherein the thermal dissociation rate is higher than the peak photo-initiated decomposition rate; a vinylic monomer; a polyfunctional monomer; scattering particles; and quantum dots. Methods of making a quantum dot material using such print materials, and of incorporating into light emitting devices, are also described.Type: GrantFiled: December 6, 2019Date of Patent: October 26, 2021Assignee: Kateeva, Inc.Inventors: Florian Pschenitzka, Michael Morse
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Patent number: 11155077Abstract: An inkjet printer is disclosed that has a substrate support; a calibration module disposed adjacent to the substrate support and comprising a stage member; and a print assembly disposed across the substrate support, the print assembly comprising a printhead and a calibration imaging device positionable to face the stage member.Type: GrantFiled: May 21, 2020Date of Patent: October 26, 2021Assignee: Kateeva, Inc.Inventors: Eashwer Chandra Vidhya Sagar Kollata, Christopher Buchner, Alexander Sou-Kang Ko, Senn Van Ly, Matthew Burton Sheffield
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Publication number: 20210328185Abstract: Optoelectronic devices that include a composite film in a multilayered encapsulation stack are provided. Also provided are methods of forming the light reflection-modifying structures, as well as other polymeric device layers, using inkjet printing. The composite films include a first, lower refractive index domain and a second, higher refractive index domain.Type: ApplicationFiled: May 11, 2021Publication date: October 21, 2021Applicant: Kateeva, Inc.Inventors: Florian Pschenitzka, Christopher D. Favaro
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Patent number: 11141752Abstract: A repeatable manufacturing process uses a printer to deposits liquid for each product carried by a substrate to form respective thin films. The liquid is dried, cured or otherwise processed to form from the liquid a permanent layer of each respective product. To perform printing, each newly-introduced substrate is roughly mechanically aligned, with an optical system detecting sub-millimeter misalignment, and with software correcting for misalignment. Rendering of adjusted data is performed such that nozzles are variously assigned dependent on misalignment to deposit droplets in a regulated manner, to ensure precise deposition of liquid for each given area of the substrate. For example, applied to the manufacture of flat panel displays, software ensures that exactly the right amount of liquid is deposited for each “pixel” of the display, to minimize likelihood of visible discrepancies in the resultant display.Type: GrantFiled: May 26, 2017Date of Patent: October 12, 2021Assignee: KATEEVA, INC.Inventors: Michael Baker, Nahid Harjee, Douglas Bacon
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Patent number: 11135854Abstract: A printing system includes a substrate support, a printhead assembly positioned facing the substrate support, and an imager. The printhead assembly includes a plurality of dispensing nozzles extending in an ejection direction towards the substrate support and a plurality of marks. The imager is movable relative to the printhead assembly and oriented in a direction opposite to the ejection direction for capturing at least one image including the plurality of marks indicating positions of the plurality of dispensing nozzles in the printhead assembly.Type: GrantFiled: November 13, 2019Date of Patent: October 5, 2021Assignee: Kateeva, Inc.Inventors: Christopher R. Hauf, David Darrow, David Donovan
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Patent number: 11135835Abstract: In a printing method, at least one image of a substrate supported in a printing system is acquired. An actual position of a first alignment feature on the substrate in a frame of reference of the printing system is determined based on the at least one image. Expected positions of second alignment features on the substrate are determined based on the actual position of the first alignment feature. Actual positions of the second alignment features in the frame of reference of the printing system are determined based on the at least one image and the expected positions of the second alignment features. Target positions of print regions on the substrate are determined based on the actual positions of the second alignment features. Ejection of print material onto the substrate in the print regions is controlled based on the target positions of the print regions.Type: GrantFiled: December 16, 2019Date of Patent: October 5, 2021Assignee: Kateeva, Inc.Inventors: Christopher R. Hauf, Eli Vronsky, Alexander Sou-Kang Ko
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Patent number: 11123983Abstract: An inkjet printer is described. The inkjet printer has a gas cushion substrate support; a print assembly comprising a dispenser with an ejection surface facing the gas cushion substrate support; and a proximity sensor disposed in a surface of the gas cushion substrate support facing the ejection surface. A method is described that includes disposing a workpiece on a gas cushion support of an inkjet printer; supporting the workpiece on a gas cushion above a surface of the gas cushion support; detecting a distance of the workpiece from the surface of the gas cushion support; determining a difference between the distance and a target distance; comparing the difference to a tolerance; and adjusting the distance of the workpiece from the surface of the gas cushion support based on the comparison.Type: GrantFiled: November 15, 2019Date of Patent: September 21, 2021Assignee: Kateeva, Inc.Inventor: Mohammad Hadi Alamdar
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Patent number: 11107991Abstract: A method of analyzing film on a substrate comprises receiving surface profile data obtained from measurements of a plurality of discrete regions on a substrate, the plurality of discrete regions comprising one or more film layers; extracting a plurality of parameters from the received surface profile data, the plurality of parameters comprising one or more parameters of the one or more film layers of each of the plurality of discrete regions, wherein the extracting is based on a predetermined pattern for the plurality of the discrete regions on the substrate; and displaying a user interface.Type: GrantFiled: February 10, 2020Date of Patent: August 31, 2021Assignee: Kateeva, Inc.Inventors: Doris Pik-Yiu Chun, Ian David Parker
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Publication number: 20210261805Abstract: Print materials described herein include a first polymerization initiator comprising an initiator material having a thermal decomposition rate and a peak photo-initiated decomposition rate, wherein the thermal dissociation rate is higher than the peak photo-initiated decomposition rate; a vinylic monomer; a polyfunctional monomer; scattering particles; and quantum dots. Methods of making a quantum dot material using such print materials, and of incorporating into light emitting devices, are also described.Type: ApplicationFiled: May 13, 2021Publication date: August 26, 2021Applicant: Kateeva, Inc.Inventors: Florian Pschenitzka, Michael Morse
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Patent number: 11097560Abstract: An inkjet printer is described. The inkjet printer has a substrate holder assembly that includes a base member having a long axis in a first direction and a short axis in a second direction perpendicular to the first direction; a contact member coupled to the base member, the contact member having a long axis in the first direction and a short axis in the second direction; a holder carriage coupled to the base member; a linear extender coupled between the base member and the contact member and extending in a third direction intersecting with the first direction and the second direction from the base member toward the contact member; and a flex member coupled to the base member, extending in the second direction between the linear extender and the contact member, and having a flex direction in a direction perpendicular to the first direction and the second direction.Type: GrantFiled: December 3, 2019Date of Patent: August 24, 2021Assignee: Kateeva, Inc.Inventors: Digby Pun, Alexander Sou-Kang Ko, David Donovan
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Publication number: 20210257345Abstract: Light-emitting sub-pixels and pixels for micro-light-emitting diode-based displays are provided. Also provided are methods of fabricating individual sub-pixels, pixels, and arrays of the pixels. The sub-pixels include a double-layered film that includes a coupling layer disposed over a light-emitting diode and a light-emission layer disposed over the coupling layer.Type: ApplicationFiled: April 8, 2021Publication date: August 19, 2021Applicant: Kateeva, Inc.Inventor: Florian Pschenitzka
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Patent number: 11088035Abstract: An ink jet process is used to deposit a material layer to a desired thickness. Layout data is converted to per-cell grayscale values, each representing ink volume to be locally delivered. The grayscale values are used to generate a halftone pattern to deliver variable ink volume (and thickness) to the substrate. The halftoning provides for a relatively continuous layer (e.g., without unintended gaps or holes) while providing for variable volume and, thus, contributes to variable ink/material buildup to achieve desired thickness. The ink is jetted as liquid or aerosol that suspends material used to form the material layer, for example, an organic material used to form an encapsulation layer for a flat panel device. The deposited layer is then cured or otherwise finished to complete the process.Type: GrantFiled: August 20, 2019Date of Patent: August 10, 2021Assignee: Kateeva, Inc.Inventors: Eliyahu Vronsky, Najid Harjee
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Publication number: 20210237478Abstract: A printer includes a substrate support, a printhead assembly, first and second actuators, and a controller. The printhead assembly deposits material on a substrate supported on the substrate support. The first actuator is disposed at a side of the substrate support and coupled to a first linear track disposed along the side of the substrate support and oriented in a first direction. The second actuator is disposed at an end of the substrate support and coupled to a second linear track disposed along the end of the substrate support and oriented in a second direction perpendicular to the first direction. The first and second actuators are positioned to engage with the substrate simultaneously. The controller moves the first and second actuators together to rotate the substrate.Type: ApplicationFiled: February 2, 2021Publication date: August 5, 2021Applicant: Kateeva, Inc.Inventors: Eashwer Chandra Vidhya Sagar KOLLATA, Digby PUN, Cormac McKinley WICKLOW, Gregory LEWIS
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Publication number: 20210227696Abstract: A method of making a device patterned with one or more electrically conductive features includes depositing a conductive material layer over an electrically insulating surface of a substrate, depositing an anti-corrosive material layer over the conductive material layer, and depositing an etch-resist material layer over the anti-corrosive material layer. The etch-resist material layer may be deposited over the anti-corrosive material layer, and the anti-corrosive material layer forming a bi-component etch mask in a pattern resulting in covered portions of the conductive material layer and exposed portions of the conductive material layer, the covered portions being positioned at locations corresponding to one or more conductive features of the device. A wet-etch process is performed to remove the exposed portions of the conductive material layer from the electrically insulating substrate, and the bi-component etch mask is removed to expose the remaining conductive material.Type: ApplicationFiled: April 2, 2021Publication date: July 22, 2021Applicant: KATEEVA, INC.Inventors: Nava Shpaisman, Moshe Frenkel
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Publication number: 20210220857Abstract: A repeatable manufacturing process uses a printer to deposits liquid for each product carried by a substrate to form respective thin films. The liquid is dried, cured or otherwise processed to form from the liquid a permanent layer of each respective product. To perform printing, each newly-introduced substrate is roughly mechanically aligned, with an optical system detecting sub-millimeter misalignment, and with software correcting for misalignment. Rendering of adjusted data is performed such that nozzles are variously assigned dependent on misalignment to deposit droplets in a regulated manner, to ensure precise deposition of liquid for each given area of the substrate. For example, applied to the manufacture of flat panel displays, software ensures that exactly the right amount of liquid is deposited for each “pixel” of the display, to minimize likelihood of visible discrepancies in the resultant display.Type: ApplicationFiled: April 7, 2021Publication date: July 22, 2021Applicant: Kateeva, Inc.Inventors: Michael Baker, Nahid Harjee, Douglas Bacon
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Publication number: 20210217828Abstract: A method of manufacturing an organic light-emitting diode display comprising a substrate having a well-defined by a confinement structure, the well containing a first electrode and a second electrode spaced from each other, wherein the method may comprise depositing a light-emissive material in the well via ink-jet printing, thereby forming a substantially continuous light-emissive material layer in the well from the deposited light-emissive material, the light-emissive material layer spanning and contained within boundaries of the well, wherein a surface of the light-emissive material layer that faces away from the substrate has a non-planar topography. The method may further comprise positioning a common electrode over the light-emissive material layer.Type: ApplicationFiled: March 25, 2021Publication date: July 15, 2021Applicant: KATEEVA, INC.Inventor: Conor F. Madigan
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Patent number: 11043653Abstract: Optoelectronic devices that include a composite film in a multilayered encapsulation stack are provided. Also provided are methods of forming the light reflection-modifying structures, as well as other polymeric device layers, using inkjet printing. The composite films include a first, lower refractive index domain and a second, higher refractive index domain.Type: GrantFiled: November 30, 2018Date of Patent: June 22, 2021Assignee: KATEEVA, INC.Inventors: Florian Pschenitzka, Christopher D. Favaro