Patents by Inventor Karel Vanheusden
Karel Vanheusden 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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Publication number: 20240010818Abstract: Methods include producing tunable carbon structures and combining carbon structures with a polymer to form a composite material. Carbon structures include crinkled graphene. Methods also include functionalizing the carbon structures, either in-situ, within the plasma reactor, or in a liquid collection facility. The plasma reactor has a first control for tuning the specific surface area (SSA) of the resulting tuned carbon structures as well as a second, independent control for tuning the SSA of the tuned carbon structures. The composite materials that result from mixing the tuned carbon structures with a polymer results in composite materials that exhibit exceptional favorable mechanical and/or other properties. Mechanisms that operate between the carbon structures and the polymer yield composite materials that exhibit these exceptional mechanical properties are also examined.Type: ApplicationFiled: September 25, 2023Publication date: January 11, 2024Applicant: Lyten, Inc.Inventors: Michael W. Stowell, Bryce H. Anzelmo, Bruce Lanning, Daniel Cook, Elena Rogojina, Karel Vanheusden, Margaret Hines, John Baldwin, Chandra B. KC
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Publication number: 20230327135Abstract: A battery may include an anode, a cathode positioned opposite to the anode, a separator positioned between the anode and the cathode, an electrolyte dispersed throughout the cathode and in contact with the anode, and a dual-pore system. The anode may be configured to release a plurality of lithium ions. The cathode may include a plurality of pathways defined by a plurality of porous non-hollow carbonaceous spherical particles and may include a plurality of carbonaceous structures each based on a coalescence of a group of the porous non-hollow carbonaceous spherical particles. The dual-pore system may be disposed in the cathode and defined in shape and orientation by the plurality of carbonaceous structures. In some aspects, the dual-pore system may be configured to receive gaseous oxygen from the ambient atmosphere.Type: ApplicationFiled: May 31, 2023Publication date: October 12, 2023Applicant: Lyten, Inc.Inventors: Karel Vanheusden, Ratnakumar Bugga, Daniel Cook
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Patent number: 11767414Abstract: Methods include producing tunable carbon structures and combining carbon structures with a polymer to form a composite material. Carbon structures include crinkled graphene. Methods also include functionalizing the carbon structures, either in-situ, within the plasma reactor, or in a liquid collection facility. The plasma reactor has a first control for tuning the specific surface area (SSA) of the resulting tuned carbon structures as well as a second, independent control for tuning the SSA of the tuned carbon structures. The composite materials that result from mixing the tuned carbon structures with a polymer results in composite materials that exhibit exceptional favorable mechanical and/or other properties. Mechanisms that operate between the carbon structures and the polymer yield composite materials that exhibit these exceptional mechanical properties are also examined.Type: GrantFiled: May 20, 2022Date of Patent: September 26, 2023Assignee: Lyten, Inc.Inventors: Michael W. Stowell, Bryce H. Anzelmo, Bruce Lanning, Daniel Cook, Elena Rogojina, Karel Vanheusden, Margaret Hines, John Baldwin, Chandra B. Kc
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Patent number: 11735745Abstract: A battery may include an anode, a cathode positioned opposite to the anode, a separator positioned between the anode and the cathode, an electrolyte dispersed throughout the cathode and in contact with the anode, and a dual-pore system. The anode may be configured to release a plurality of lithium ions. The cathode may include a plurality of pathways defined by a plurality of porous non-hollow carbonaceous spherical particles and may include a plurality of carbonaceous structures each based on a coalescence of a group of the porous non-hollow carbonaceous spherical particles. The dual-pore system may be disposed in the cathode and defined in shape and orientation by the plurality of carbonaceous structures. In some aspects, the dual-pore system may be configured to receive gaseous oxygen from the ambient atmosphere.Type: GrantFiled: September 27, 2021Date of Patent: August 22, 2023Assignee: Lyten, Inc.Inventors: Karel Vanheusden, Ratnakumar Bugga, Daniel Cook
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Publication number: 20220407046Abstract: A battery may include an anode, a cathode positioned opposite to the anode, a separator positioned between the anode and the cathode, an electrolyte dispersed throughout the cathode and in contact with the anode, and a dual-pore system. The anode may be configured to release a plurality of lithium ions. The cathode may include a plurality of pathways defined by a plurality of porous non-hollow carbonaceous spherical particles and may include a plurality of carbonaceous structures each based on a coalescence of a group of the porous non-hollow carbonaceous spherical particles. The dual-pore system may be disposed in the cathode and defined in shape and orientation by the plurality of carbonaceous structures. In some aspects, the dual-pore system may be configured to receive gaseous oxygen from the ambient atmosphere.Type: ApplicationFiled: June 16, 2022Publication date: December 22, 2022Applicant: Lyten, Inc.Inventors: Jerzy Gazda, Karel Vanheusden, Ratnakumar Bugga, Daniel Cook
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Publication number: 20220407085Abstract: A battery may include an anode, a cathode positioned opposite to the anode, a separator positioned between the anode and the cathode, an electrolyte dispersed throughout the cathode and in contact with the anode, and a dual-pore system. The anode may be configured to release a plurality of lithium ions. The cathode may include a plurality of pathways defined by a plurality of porous non-hollow carbonaceous spherical particles and may include a plurality of carbonaceous structures each based on a coalescence of a group of the porous non-hollow carbonaceous spherical particles. The dual-pore system may be disposed in the cathode and defined in shape and orientation by the plurality of carbonaceous structures. In some aspects, the dual-pore system may be configured to receive gaseous oxygen from the ambient atmosphere.Type: ApplicationFiled: September 27, 2021Publication date: December 22, 2022Applicant: Lyten, Inc.Inventors: Karel Vanheusden, Ratnakumar Bugga, Daniel Cook
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Patent number: 11489161Abstract: A composition of matter suitable for incorporation into a battery electrode is disclosed. In some implementations, the composition of matter may include pores that may be defined in size or shape by several carbonaceous particles. Each of the particles may have multiple regions such that adjacent regions are separated from each other by some of the pores. Deformable regions may be distributed throughout a perimeter of each of the particles, for example, to accommodate coalescence of multiple adjacent particles. The composition of matter may also include a plurality of aggregates and a plurality of agglomerates, where each aggregate includes a multitude of the particles joined together, and each agglomerate includes a multitude of the aggregates joined together.Type: GrantFiled: July 23, 2021Date of Patent: November 1, 2022Assignee: Lyten, Inc.Inventors: Anurag Kumar, Jeffrey Bell, Qianwen Huang, Jesse Baucom, You Li, John Thorne, Karel Vanheusden, Elena Rogojina, Jerzy Gazda
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Patent number: 11479062Abstract: This disclosure provides a tire formed of a body having multiple plies and a tread that surrounds the body. The plies and/or the treads and/or other surfaces of the tire include one or more resonators that respond to being interrogated by an externally generated excitation signal. Multiple resonators formed of electrically-conducting materials are disposed (e.g., printed) on the plies and/or tread and/or other surfaces of the tire. Each of a group of multiple resonators can be individually configured to respond to different frequencies of the excitation signal such that the presence of a response (e.g., a measured attenuation of the excitation signal return) or lack of response (e.g., based on comparison of the excitation signal return to calibration curves) from individual ones of the multiple resonators can be combined to form a serial number that is unique to the tire or other elastomer-containing component (e.g., belts, hoses, etc.) being interrogated.Type: GrantFiled: April 9, 2021Date of Patent: October 25, 2022Assignee: Lyten, Inc.Inventors: Michael W. Stowell, Bruce Lanning, Bryce H. Anzelmo, Karel Vanheusden, Sung H. Lim, Carlos Montalvo
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Patent number: 11472233Abstract: This disclosure provides a tire formed of a body having multiple plies and a tread that surrounds the body. In some implementations, the plies and/or the tread include a resonator that generates a resonant signal in response to being activated by locally generated power or by an externally generated excitation signal. Multiple resonators formed of carbon-containing materials are distributed in the plies and/or tread to respond to changes to the tire by altering a characteristic of the resonant signal. Such alterations include frequency shifting of the resonant signal and/or attenuation of the resonant signal. The resonator can be configured to resonate at a first frequency when a structural characteristic of a respective ply or tread is greater than a level, and to resonate at a second frequency different than the first frequency when the structural characteristic of the respective ply or tread is not greater than the level.Type: GrantFiled: March 25, 2020Date of Patent: October 18, 2022Assignee: Lyten, Inc.Inventors: Michael W. Stowell, Bruce Lanning, Bryce H. Anzelmo, Karel Vanheusden, Sung H. Lim, Carlos Montalvo
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Patent number: 11446966Abstract: This disclosure provides a tire formed of a body having multiple plies and a tread that surrounds the body. In some implementations, the plies and/or the tread include a resonator that generates a resonant signal in response to being activated by locally generated power or by an externally generated excitation signal. Multiple resonators formed of carbon-containing materials are distributed in the plies and/or tread to respond to changes to the tire by altering a characteristic of the resonant signal. Such alterations include frequency shifting of the resonant signal and/or attenuation of the resonant signal. The resonator can be configured to resonate at a first frequency when a structural characteristic of a respective ply or tread is greater than a level, and to resonate at a second frequency different than the first frequency when the structural characteristic of the respective ply or tread is not greater than the level.Type: GrantFiled: March 25, 2020Date of Patent: September 20, 2022Assignee: Lyten, Inc.Inventors: Michael W. Stowell, Bruce Lanning, Bryce H. Anzelmo, Karel Vanheusden, Sung H. Lim, Carlos Montalvo
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Publication number: 20220275174Abstract: Methods include producing tunable carbon structures and combining carbon structures with a polymer to form a composite material. Carbon structures include crinkled graphene. Methods also include functionalizing the carbon structures, either in-situ, within the plasma reactor, or in a liquid collection facility. The plasma reactor has a first control for tuning the specific surface area (SSA) of the resulting tuned carbon structures as well as a second, independent control for tuning the SSA of the tuned carbon structures. The composite materials that result from mixing the tuned carbon structures with a polymer results in composite materials that exhibit exceptional favorable mechanical and/or other properties. Mechanisms that operate between the carbon structures and the polymer yield composite materials that exhibit these exceptional mechanical properties are also examined.Type: ApplicationFiled: May 20, 2022Publication date: September 1, 2022Applicant: Lyten, Inc.Inventors: Michael W. Stowell, Bryce H. Anzelmo, Bruce Lanning, Daniel Cook, Elena Rogojina, Karel Vanheusden, Margaret Hines, John Baldwin, Chandra B. KC
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Patent number: 11367895Abstract: An lithium-sulfur battery including an anode, a cathode, and a solid-state electrolyte is provided. The anode may be formed as a single layer of lithium and/or as a cavity. In some aspects, the cavity may receive lithium deposits based on lithium output from the cathode. The cathode may be formed from a composition of matter including pores. A solid-state electrolyte may be dispersed throughout the cathode and in contact with the anode. The solid-state electrolyte may be formed as a membrane and may provide ionic conduction capabilities associated with a separator. The solid-state electrolyte includes a polymer matrix formed of glass fibers interconnected with each other. The polymer matrix has an ionic conductivity and includes polyethylene oxide (PEO), polyvinylidene difluoride (PVDF), polyetheramine having repeated oxypropylene units in its backbone, and one or more lithium-containing salts including one or more of lithium bis(trifluoromethanesulfonyl)imide (LiTFSI) or lithium iodide (LiI).Type: GrantFiled: January 26, 2022Date of Patent: June 21, 2022Assignee: Lyten, Inc.Inventors: Jingning Shan, You Li, Jesse Baucom, Elena Rogojina, Karel Vanheusden
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Patent number: 11352481Abstract: Methods include producing tunable carbon structures and combining carbon structures with a polymer to form a composite material. Carbon structures include crinkled graphene. Methods also include functionalizing the carbon structures, either in-situ, within the plasma reactor, or in a liquid collection facility. The plasma reactor has a first control for tuning the specific surface area (SSA) of the resulting tuned carbon structures as well as a second, independent control for tuning the SSA of the tuned carbon structures. The composite materials that result from mixing the tuned carbon structures with a polymer results in composite materials that exhibit exceptional favorable mechanical and/or other properties. Mechanisms that operate between the carbon structures and the polymer yield composite materials that exhibit these exceptional mechanical properties are also examined.Type: GrantFiled: February 6, 2020Date of Patent: June 7, 2022Assignee: Lyten, Inc.Inventors: Michael W. Stowell, Bryce H. Anzelmo, Bruce Lanning, Daniel Cook, Elena Rogojina, Karel Vanheusden, Margaret Hines, John Baldwin, Chandra B. KC
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Patent number: 11309545Abstract: A composition of matter may include pores and non-tri-zone particles and tri-zone particles. In one implementation, each tri-zone particle may include carbon fragments intertwined with each other and separated from one another by mesopores. Each tri-zone particle may also include a deformable perimeter that may coalesce with adjacent non-tri-zone particles or tri-zone particles. In some aspects, the tri-zone particles may include aggregates formed by a multitude of the tri-zone particles joined together. In some aspects, mesopores may be interspersed throughout the aggregates. Each tri-zone particle may also include agglomerates, where each agglomerate includes a multitude of the aggregates joined together. In some aspects, macropores may be interspersed throughout the aggregates.Type: GrantFiled: July 23, 2021Date of Patent: April 19, 2022Assignee: LytEn, Inc.Inventors: Anurag Kumar, Jeffrey Bell, Qianwen Huang, Jesse Baucom, You Li, John Thorne, Karel Vanheusden, Elena Rogojina, Jerzy Gazda
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Publication number: 20210367241Abstract: A composition of matter may include pores and non-tri-zone particles and tri-zone particles. In one implementation, each tri-zone particle may include carbon fragments intertwined with each other and separated from one another by mesopores. Each tri-zone particle may also include a deformable perimeter that may coalesce with adjacent non-tri-zone particles or tri-zone particles. In some aspects, the tri-zone particles may include aggregates formed by a multitude of the tri-zone particles joined together. In some aspects, mesopores may be interspersed throughout the aggregates. Each tri-zone particle may also include agglomerates, where each agglomerate includes a multitude of the aggregates joined together. In some aspects, macropores may be interspersed throughout the aggregates.Type: ApplicationFiled: July 23, 2021Publication date: November 25, 2021Applicant: Lyten, Inc.Inventors: Anurag Kumar, Jeffrey Bell, Qianwen Huang, Jesse Baucom, You Li, John Thorne, Karel Vanheusden, Elena Rogojina, Jerzy Gazda
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Publication number: 20210351406Abstract: A composition of matter suitable for incorporation into a battery electrode is disclosed. In some implementations, the composition of matter may include pores that may be defined in size or shape by several carbonaceous particles. Each of the particles may have multiple regions such that adjacent regions are separated from each other by some of the pores. Deformable regions may be distributed throughout a perimeter of each of the particles, for example, to accommodate coalescence of multiple adjacent particles. The composition of matter may also include a plurality of aggregates and a plurality of agglomerates, where each aggregate includes a multitude of the particles joined together, and each agglomerate includes a multitude of the aggregates joined together.Type: ApplicationFiled: July 23, 2021Publication date: November 11, 2021Applicant: Lyten, Inc.Inventors: Anurag Kumar, Jeffrey Bell, Qianwen Huang, Jesse Baucom, You Li, John Thorne, Karel Vanheusden, Elena Rogojina, Jerzy Gazda
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Publication number: 20210229503Abstract: This disclosure provides a tire formed of a body having multiple plies and a tread that surrounds the body. The plies and/or the treads and/or other surfaces of the tire include one or more resonators that respond to being interrogated by an externally generated excitation signal. Multiple resonators formed of electrically-conducting materials are disposed (e.g., printed) on the plies and/or tread and/or other surfaces of the tire. Each of a group of multiple resonators can be individually configured to respond to different frequencies of the excitation signal such that the presence of a response (e.g., a measured attenuation of the excitation signal return) or lack of response (e.g., based on comparison of the excitation signal return to calibration curves) from individual ones of the multiple resonators can be combined to form a serial number that is unique to the tire or other elastomer-containing component (e.g., belts, hoses, etc.) being interrogated.Type: ApplicationFiled: April 9, 2021Publication date: July 29, 2021Applicant: Lyten, Inc.Inventors: Michael W. STOWELL, Bruce LANNING, Bryce H. ANZELMO, Karel VANHEUSDEN, Sung H. LIM, Carlos MONTALVO
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Publication number: 20210181145Abstract: Sensors for detecting analytes are disclosed. In various implementations, the sensing device may include a substrate and a sensor array. The sensor array may be arranged on the substrate, and may include a plurality of sensors. In some implementations, at least two of the sensors may include a first carbon-based sensing material disposed between a first pair of electrodes, and a second carbon-based sensing material disposed between a second pair of electrodes. The first carbon-based sensing material may be configured to detect a presence of each analyte of a group of analytes, and the second carbon-based sensing material may be configured to confirm the presence of each analyte of a subset of the group of analytes. In some instances, the group of analytes includes at least twice as many different analytes as the subset of analytes.Type: ApplicationFiled: February 22, 2021Publication date: June 17, 2021Applicant: Lyten, Inc.Inventors: Michael W. Stowell, Bruce Lanning, Sung H. Lim, John Chmiola, Karel Vanheusden, Daniel Cook, George Clayton Gibbs
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Publication number: 20210181146Abstract: A sensing device for detecting analytes within a package or container is disclosed. In various implementations, the sensing device may include a substrate, one or more electrodes, and a sensor array. The sensor array may be disposed on the substrate, and may include a plurality of carbon-based sensors coupled to the one or more electrodes. The carbon-based sensors may be configured to react with unique groups of analytes in response to an electromagnetic signal received from an external device. In some instances, a first sensor may be configured to detect a presence of each analyte of a group of analytes, and a second sensor may be configured to confirm the presence of each analyte of a subset of the group of analytes.Type: ApplicationFiled: February 22, 2021Publication date: June 17, 2021Applicant: Lyten, Inc.Inventors: Michael W. Stowell, Bruce Lanning, Sung H. Lim, John Chmiola, Karel Vanheusden, Daniel Cook, George Clayton Gibbs
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Publication number: 20210172905Abstract: A sensing device configured to monitor a battery pack is disclosed. The sensing device may include a plurality of carbon-based sensors enclosed within the battery pack. Each sensor coupled may be between a corresponding pair of electrodes, and may include a plurality of 3D graphene-based sensing materials. In some instances, the 3D graphene-based sensing materials of a first sensor may be functionalized with a first material configured to detect a presence of each analyte of a first group of analytes, and the 3D graphene-based sensing materials of a second sensor may be functionalized with a second material configured to detect a presence of each analyte of a second group of analytes.Type: ApplicationFiled: February 22, 2021Publication date: June 10, 2021Applicant: Lyten, Inc.Inventors: Michael W. Stowell, Bruce Lanning, Sung H. Lim, John Chmiola, Karel Vanheusden, Daniel Cook, George Clayton Gibbs