Patents by Inventor Mark A. Roehrig
Mark A. Roehrig 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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Patent number: 12607549Abstract: An optical element includes a porous layer with a network of a plurality of interconnected voids. The porous layer is optically diffusive to at least one wavelength of light when the network of interconnected voids is substantially free of fluid. The porous layer of the optical element undergoes a detectable optical change upon fluid ingress into the network or egress from the network of interconnected voids.Type: GrantFiled: August 21, 2023Date of Patent: April 21, 2026Assignee: Solventum Intellectual Properties CompanyInventors: John A. Wheatley, William B. Kolb, Audrey A. Sherman, Mark A. Roehrig, Alan R. Dombrowski, Kurt J. Halverson, Steven P. Swanson, Del R. Lawson, Cory M. Arthur
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Patent number: 12601860Abstract: An optical construction includes a lens layer and optically opaque first and second mask layers. The lens layer has a first major surface including a plurality of microlenses arranged along orthogonal first and second directions. The first and second mask layers are spaced apart from the first major surface and define respective pluralities of through first and second openings therein arranged along the first and second directions. The first mask layer is disposed between the structured first major surface and the second mask layer. There is a one-to-one correspondence between the microlenses and the first and second openings. The optical construction includes an intermediate layer disposed between the structured first major surface and the first mask layer and including an undulating second major surface facing, and in substantial registration with, an undulating third major surface of first mask layer so as to define a substantially uniform spacing therebetween.Type: GrantFiled: October 20, 2021Date of Patent: April 14, 2026Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Adam T. Ringberg, Vivian W. Jones, James A. Phipps, Tri D. Pham, Przemyslaw P. Markowicz, Mark A. Roehrig, Stephen P. Maki, Bing Hao, David J. Rowe, Serena L. Mollenhauer, Mikhail A. Belkin, Zhaohui Yang, Jathan D. Edwards
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Patent number: 12510466Abstract: A measurement system is disclosed and includes a light source, a receiver, a measurement subject, and a reflector. The reflector is disposed on an opposite side of the measurement subject than are the light source and the receiver.Type: GrantFiled: September 30, 2021Date of Patent: December 30, 2025Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: John A. Wheatley, William Gray, Bharat R. Acharya, Aaron M. Marcella, Stephen M. Kennedy, Brett J. Sitter, Michael L. Steiner, Mark A. Roehrig, Jonah Shaver, Jessica E. DeMay
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Patent number: 12510779Abstract: An optical construction includes a lens film having outermost first and second major surfaces. The first major surface includes a plurality of microlenses. A multilayer mask having an average thickness of less than about 0.5 times an average focal length of the microlenses and an optical density of greater than about 2 is disposed on the second major surface. The multilayer mask includes polymeric first and second mask layers where each of the first and second mask layers has an optical density of greater than about 0.3. The multilayer mask defines a plurality of laser-ablated through openings therein that are aligned to the microlenses in a one-to-one correspondence. An optical transmittance of the optical construction as a function of the incident angle has a transmitted peak having a peak transmittance T1 and a corresponding full width at 20 percent of maximum W1, where T1/W1?2.4%/degree.Type: GrantFiled: December 14, 2021Date of Patent: December 30, 2025Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Neeraj Sharma, Przemyslaw P. Markowicz, Daniel J. Schmidt, Timothy J. Reddy, Mark A. Roehrig
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Patent number: 12399059Abstract: Various embodiments of an optical construction and an electronic device that includes such optical construction are disclosed. The optical construction includes a lens film having an outermost structured first major surface and an opposing outermost substantially planar second major surface. The structured first major surface includes a plurality of microlenses. The optical construction also includes a mask disposed adjacent to the second major surface of the lens film and includes a plurality of laser-ablated openings disposed through the mask. The openings are aligned to the microlenses in a one-to-one correspondence. The mask further includes a UV-cured polymer material and an optically absorptive material.Type: GrantFiled: November 30, 2021Date of Patent: August 26, 2025Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Neeraj Sharma, Przemyslaw P. Markowicz, Timothy J. Reddy, Mark A. Roehrig, Tri D. Pham
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Patent number: 12222599Abstract: An optical system includes a lens layer including a plurality of microlenses arranged along orthogonal first and second directions, and at least one optically opaque mask layer spaced apart from the lens layer and defining a plurality of through openings therein arranged along the first and second directions. There is a one-to-one correspondence between the microlenses and the openings, such that for each microlens, the microlens and corresponding openings are substantially centered on a straight line making a same oblique angle with the lens layer. An optical layer can include the lens layer and the optically opaque mask layer embedded in the optical layer.Type: GrantFiled: December 1, 2020Date of Patent: February 11, 2025Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Zhaohui Yang, Przemyslaw P. Markowicz, Mark A. Roehrig, Tri D. Pham, Serena L. Schleusner, David A. Rosen, Yang Liu
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Publication number: 20240423516Abstract: A dressing system for sensing a presence of an analyte includes a first layer, and a second layer facing a first major surface of the first layer. The second layer has a second permeability to the analyte less than a first permeability of the first layer. The dressing system further includes a first fiber configured to deliver an excitation light. The dressing system further includes at least one sensor layer including a sensor material configured to receive the excitation light from the first fiber and emit an emitted light in response to the excitation light. The dressing system further includes a second fiber separate from the first fiber and configured to receive the emitted light from the at least one sensor layer.Type: ApplicationFiled: July 29, 2022Publication date: December 26, 2024Applicant: Solventum Intellectual Properties CompanyInventors: Li YU, Dawn V. MUYRES, Mark A. ROEHRIG, John A. WHEATLEY, Jason W. BJORK, Przemyslaw P. MARKOWICZ
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Publication number: 20240280739Abstract: An optical system includes a lens layer having a first major surface including first and second microlenses and a first light absorbing layer. The light absorbing layer defines first and second through openings with a one-to-one correspondence between the first and second microlenses and respective first and second through openings. Each pair of first microlens and first through opening centered on a first optical axis makes a first angle with a normal to the first light absorbing layer. Each pair of second microlens and second through opening centered on a second optical axis makes a second angle, different than the first angle, with the normal to the first light absorbing layer. A light source emits light incident on the first major surface side. The emitted light includes first and second light beams carrying respective first and second information and propagating substantially parallel to the first and second optical axes, respectively.Type: ApplicationFiled: June 20, 2022Publication date: August 22, 2024Inventors: John A. Wheatley, Mark A. Roehrig, Zhaohui Yang, Bharat R. Acharya, David J.W. Aastuen, Serena L. Mollenhauer
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Patent number: 12066329Abstract: An optical device is disclosed and includes an optical sensor, a plurality of photosensitive pixels disposed on the optical sensor, a wavelength-selective optical filter in optical communication with the photosensitive pixels, and a plurality of spatially-variant written regions disposed in the optical filter, the written regions having a transmission spectrum and each of the written regions being larger than each of the pixels.Type: GrantFiled: March 19, 2020Date of Patent: August 20, 2024Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: John A. Wheatley, Mark A. Roehrig, Audrey A. Sherman, Del R. Lawson, Gilles J. Benoit, Daniel J. Schmidt, Jonah Shaver, Raymond J. Kenney, Zhaohui Yang
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Publication number: 20240096127Abstract: Various embodiments of an optical construction and an electronic device that includes such optical construction are disclosed. The optical construction includes a lens film having an outermost structured first major surface and an opposing outermost substantially planar second major surface. The structured first major surface includes a plurality of microlenses. The optical construction further includes a mask disposed adjacent to the second major surface of the lens film, where the mask includes a polymeric layer, a nanoparticle layer, and plurality of laser-ablated openings disposed through the mask. The openings are aligned to the microlenses in a one-to-one correspondence.Type: ApplicationFiled: November 30, 2021Publication date: March 21, 2024Inventors: Neeraj Sharma, Przemyslaw P. Markowicz, Timothy J. Reddy, Mark A. Roehrig, Tri D. Pham, Zhaohui Yang
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Publication number: 20240094444Abstract: Various embodiments of an optical construction and an electronic device that includes such optical construction are disclosed. The optical construction includes a lens film having an outermost structured first major surface and an opposing outermost substantially planar second major surface. The structured first major surface includes a plurality of microlenses. The optical construction further includes a mask disposed adjacent to the second major surface of the lens film, where the mask includes a polymeric layer, a metal layer, and a plurality of laser-ablated openings disposed through the mask and aligned to the microlenses in a one-to-one correspondence.Type: ApplicationFiled: November 30, 2021Publication date: March 21, 2024Inventors: Neeraj Sharma, Przemyslaw P. Markowicz, Michael W. Bench, Timothy J. Reddy, Mark A. Roehrig, Tri D. Pham, Zhaohui Yang
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Publication number: 20240045115Abstract: An optical construction includes a lens film having outermost first and second major surfaces. The first major surface includes a plurality of microlenses. A multilayer mask having an average thickness of less than about 0.5 times an average focal length of the microlenses and an optical density of greater than about 2 is disposed on the second major surface. The multilayer mask includes polymeric first and second mask layers where each of the first and second mask layers has an optical density of greater than about 0.3. The multilayer mask defines a plurality of laser-ablated through openings therein that are aligned to the microlenses in a one-to-one correspondence. An optical transmittance of the optical construction as a function of the incident angle has a transmitted peak having a peak transmittance T1 and a corresponding full width at 20 percent of maximum W1, where T1/W1?2.4%/degree.Type: ApplicationFiled: December 14, 2021Publication date: February 8, 2024Inventors: Neeraj Sharma, Przemyslaw P. Markowicz, Daniel J. Schmidt, Timothy J. Reddy, Mark A. Roehrig
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Publication number: 20240036235Abstract: An optical film (100) includes a plurality of polymeric layers (40) disposed between opposing first (11) and second (12) outer layers, a thinnest polymeric layer in the plurality of polymeric layers disposed closer to the first outer layer (11) and a thickest polymeric layer disposed closer to the second outer layer (12). A layer thickness gradient of the optical film (100) includes first (43) and second (45) portions joined by a step portion (20), a change in thickness across the step portion (20) at least 5 times greater than a change in thickness across each of the first (43) and second (45) portions, wherein the optical film (100) has a first average transmission percentage, TA1, in a first wavelength range, a peak transmission percentage, Tp, in a different, second wavelength range. The first wavelength range and the second wavelength range are separated by a third wavelength range with a third average transmission percentage, TA3, such that TA1>Tp>30(TA3).Type: ApplicationFiled: December 17, 2021Publication date: February 1, 2024Inventors: John A. Wheatley, Gilles J. Benoit, Mark A. Roehrig, Bharat R. Acharya, Serena L. Schleusner, Zhaohui Yang
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Publication number: 20240027262Abstract: Various embodiments of an optical construction and an electronic device that includes such optical construction are disclosed. The optical construction includes a lens film having an outermost structured first major surface and an opposing outermost substantially planar second major surface. The structured first major surface includes a plurality of microlenses. The optical construction also includes a mask disposed adjacent to the second major surface of the lens film and includes a plurality of laser-ablated openings disposed through the mask. The openings are aligned to the microlenses in a one-to-one correspondence. The mask further includes a UV-cured polymer material and an optically absorptive material.Type: ApplicationFiled: November 30, 2021Publication date: January 25, 2024Inventors: Neeraj Sharma, Przemyslaw P. Markowicz, Timothy J. Reddy, Mark A. Roehrig, Tri D. Pham
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Patent number: 11879779Abstract: An optical system (150) is disclosed and includes an optical sensor (154), a plurality of photosensitive pixels (178) disposed on the optical sensor, a wavelength-selective optical filter (158) in optical communication with the photosensitive pixels, the wavelength-selective optical filter being disposed remotely from the optical sensor, and a plurality of spatially-variant areas (220, 224, 228, 232) disposed in the optical filter, at least one area of the plurality of spatially-variant areas including a downconverter (400, 500).Type: GrantFiled: June 23, 2020Date of Patent: January 23, 2024Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: John A. Wheatley, Mark A. Roehrig
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Publication number: 20230408394Abstract: An optical element includes a porous layer with a network of a plurality of interconnected voids. The porous layer is optically diffusive to at least one wavelength of light when the network of interconnected voids is substantially free of fluid. The porous layer of the optical element undergoes a detectable optical change upon fluid ingress into the network or egress from the network of interconnected voids.Type: ApplicationFiled: August 21, 2023Publication date: December 21, 2023Inventors: John A. Wheatley, William B. Kolb, Audrey A. Sherman, Mark A. Roehrig, Alan R. Dombrowski, Kurt J. Halverson, Steven P. Swanson, Del R. Lawson, Cory M. Arthur
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Publication number: 20230400606Abstract: An optical construction includes a lens layer and optically opaque first and second mask layers. The lens layer has a first major surface including a plurality of microlenses arranged along orthogonal first and second directions. The first and second mask layers are spaced apart from the first major surface and define respective pluralities of through first and second openings therein arranged along the first and second directions. The first mask layer is disposed between the structured first major surface and the second mask layer. There is a one-to-one correspondence between the microlenses and the first and second openings. The optical construction includes an intermediate layer disposed between the structured first major surface and the first mask layer and including an undulating second major surface facing, and in substantial registration with, an undulating third major surface of first mask layer so as to define a substantially uniform spacing therebetween.Type: ApplicationFiled: October 20, 2021Publication date: December 14, 2023Inventors: Adam T. Ringberg, Vivian W. Jones, James A. Phipps, Tri D. Pham, Przemyslaw P. Markowicz, Mark A. Roehrig, Stephen P. Maki, Bing Hao, David J. Rowe, Serena L. Mollenhauer, Mikhail A. Belkin, Zhaohui Yang, Jathan D. Edwards
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Publication number: 20230393054Abstract: A measurement system is disclosed and includes a light source, a receiver, a measurement subject, and a reflector. The reflector is disposed on an opposite side of the measurement subject than are the light source and the receiver.Type: ApplicationFiled: September 30, 2021Publication date: December 7, 2023Inventors: John A. Wheatley, William Gray, Bharat R. Acharya, Aaron M. Marcella, Stephen M. Kennedy, Brett J. Sitter, Micheal L. Steiner, Mark A. Roehrig, Jonah Shaver, Jessica E. DeMay
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Patent number: 11802795Abstract: An optical system is disclosed and includes an optical sensor, a plurality of photosensitive pixels disposed on the optical sensor, a wavelength-selective optical filter in optical communication with the photosensitive pixels, the wavelength-selective optical filter being disposed remotely from the optical sensor, an area disposed in the wavelength-selective optical filter, the area having a transmission spectrum different from a transmission spectrum of a portion of the wavelength-selective optical filter not in the area and a reflector, the wavelength-selective optical filter and a measurement subject each being disposed between the reflector and the optical sensor along an optical path.Type: GrantFiled: April 1, 2020Date of Patent: October 31, 2023Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: John A. Wheatley, Mark A. Roehrig, Del R. Lawson, Tony J. Kaufman, James W. Howard, Kevin W. Gotrik, Claire R. Donoghue, Joshua M. Fishman, Jonah Shaver
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Publication number: 20230333289Abstract: An optical construction can include a lens layer including microlenses formed on a substrate and at least one light absorbing optical cavity disposed on a substrate side of the lens layer. Each light absorbing optical cavity has an average thickness of less than about 300 nm and includes an optically transparent middle layer disposed between light absorbing first and second end layers. Each of the first and second end layers, but not the middle layer, defines a plurality of through openings therein aligned in a one-to-one correspondence with the microlenses. The optical construction can include an optically transparent spacer layer disposed between two light absorbing optical cavities. An optical system includes the optical construction and a refractive component including at least one prism film.Type: ApplicationFiled: August 13, 2021Publication date: October 19, 2023Inventors: Stephen P. Maki, Zhaohui Yang, Przemyslaw P. Markowicz, Mark A. Roehrig, Tri D. Pham, Serena L. Mollenhauer, David A. Rosen, Yang Liu