Patents by Inventor John P. Baetzold
John P. Baetzold 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: 20170248742Abstract: The present disclosure relates to articles and methods of making light redirecting film constructions comprising a microstructured optical film bonded in selected areas to another film. This type of assembly may serve various purposes. For example, the assembly may protect the structured film, provide additional functionality, such as diffusion, and/or facilitate attachment of the microstructured optical film to a mounting surface, such as a window.Type: ApplicationFiled: October 16, 2015Publication date: August 31, 2017Applicant: 3M INNOVATIVE PROPERTIES COMPANYInventors: MANOJ NIRMAL, JOHN P. BAETZOLD, ERIK A. AHO, SUMAN K. PATEL, SCOTT M. TAPIO, MIKHAIL L. PEKUROVSKY, JOHN J. STRADINGER, BING HAO
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Publication number: 20170198168Abstract: A conformable, removable film-based article having a patterned, discontinuous upper protective layer. The upper layer may be configured to facilitate enhanced removability of the film from a substrate, such as an automobile's exterior surface, to which it has been applied.Type: ApplicationFiled: June 3, 2015Publication date: July 13, 2017Inventors: John P. Baetzold, Robert R. Condon, Shawn C. Dodds, Thomas B. Galush, Thomas Herdtle, Mikhail L. Pekurovsky, John J. Stradinger
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Patent number: 9664834Abstract: An optical film that includes a reflective polarizer and a stretched polymer film is disclosed. The stretched polymer film is laminated to the reflective polarizer, and the stretched polymer film exhibits a refractive index symmetry point at an angle of incidence in air of at least about 60 degrees in a plane of incidence parallel to a direction of greatest stretch.Type: GrantFiled: March 30, 2009Date of Patent: May 30, 2017Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Ellen R. Bösl, Bert T. Chien, Carsten Franke, Shandon D. Hart, Brent A. Hedding, Donovan C. Karg, Jr., Thomas J. Ludemann, Meghan A. Bradley, Mark B. O'Neill, Jeffrey A. Peterson, Joan M. Strobel, Huiwen Tai, John F. Van Derlofske, III, Michael F. Weber, Chiu Ping Wong, Richard J. Pokorny, John P. Baetzold
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Patent number: 9668333Abstract: A transparent conductive article includes a transparent substrate, a thin electrically conductive grid, and a carbon nanolayer. The grid is disposed on the substrate, and the carbon nanolayer is also disposed on the substrate and in contact with the grid. The conductive grid and the carbon nanolayer may have thicknesses of no more than 1 micron and 50 nanometers, respectively. The carbon nanolayer has a morphology that includes graphite platelets embedded in nano-crystalline carbon, and can be produced with a buffing procedure using dry carbon particles without substantially damaging the grid structure. The article may have a visible light transmission of at least 80%, and a sheet resistance less than 500 or 100 ohms/square. The transparent substrate may comprise a flexible polymer film. The disclosed articles may substantially maintain an initial sheet resistance value when subjected to flexing.Type: GrantFiled: December 12, 2012Date of Patent: May 30, 2017Assignee: 3M Innovative Properties CompanyInventors: Ranjith Divigalpitiya, Mark J. Pellerite, John P. Baetzold, Gary A. Korba, Mieczyslaw H. Mazurek
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Patent number: 9603242Abstract: A transparent electrical conductor (10; 20), comprising a transparent substrate (14; 201); a composite layer (18; 28) comprising an electrically conductive layer (12) disposed on at least a portion of a major surface of the transparent substrate (14; 201) and comprising a plurality of interconnecting metallic nanowires, and a polymeric overcoat layer (16) disposed on at least a portion of the electrically conductive layer (12); wherein a pattern in the composite layer includes an x-axis and a y-axis of an x-y plane of the composite layer and a z-axis into the x-y plane of the composite layer, and the pattern defines a plurality of electrically conductive regions (24, 24?) in the x-y plane of the composite layer (18; 28), wherein the electrically conductive regions (24, 24?) are separated from each other by electrically insulative traces (21), each of which defines a valley into the z-axis of the x-y plane of the composite layer (18; 28), the valley having a maximum depth (27) in a range from 50 nanometers toType: GrantFiled: December 10, 2012Date of Patent: March 21, 2017Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Mark J. Pellerite, John P. Baetzold, John J. Stradinger, Pingfan Wu, Hyacinth L. Lechuga, Manoj Nirmal
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Publication number: 20170072434Abstract: A system and a method for providing a film having a matte finish is described. A coatable material is applied to a substrate. The viscosity of the coatable material is changed and a face-side roller contacts the coatable material to impart a matte finish thereon; and hardening the coatable material.Type: ApplicationFiled: November 29, 2016Publication date: March 16, 2017Inventors: Robert A. Yapel, Francis M. Aguirre, John P. Baetzold, Olester Benson, JR., Andrew J. Henderson, Mitchell A.F. Johnson, Leslie A. Todero, Steven J. McMan, David L. Phillips, Bruce D. Shalles
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Publication number: 20170009105Abstract: Adhesive articles include a substrate with a first major surface and a second major surface, a layer of pressure sensitive adhesive with a first major surface and a second major surface, where the second major surface of the pressure sensitive adhesive layer is disposed on the first major surface of the substrate, and a plurality of non-pressure sensitive adhesive structures disposed on the first major surface of the pressure sensitive adhesive layer. The plurality of non-pressure sensitive adhesive structures are arrayed in a random or non-random pattern, and are applied to the first major surface of the pressure sensitive adhesive layer by direct contact printing. The articles may also include a microstructured release liner or conformable sheet covering the first major surface of the pressure sensitive adhesive layer and the plurality of non-pressure sensitive adhesive structures.Type: ApplicationFiled: January 28, 2015Publication date: January 12, 2017Inventors: John P. Baetzold, Audrey A. Sherman, Brian T. Weber, John J. Stradinger, Mikhail L. Pekurovsky, Suman K. Patel, Frank T. Sher
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Patent number: 9539613Abstract: A system and a method for providing a film having a matte finish is described. A coatable material is applied to a substrate. The viscosity of the coatable material is changed and a face-side roller having patterned features thereon contacts the coatable material to impart a matte finish thereon; and hardening the coatable material.Type: GrantFiled: October 29, 2013Date of Patent: January 10, 2017Assignee: 3M Innovative Properties CompanyInventors: Robert A. Yapel, Francis M. Aguirre, John P. Baetzold, Olester Benson, Jr., Andrew J. Henderson, Mitchell A. F. Johnson, Leslie A. Todero, Steven J. McMan, David L. Phillips, Bruce D. Shalles
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Publication number: 20160263929Abstract: A method of plasma treating a flexographic printing plate and a method of using a plasma-treated flexographic printing plate to transfer a liquid to a printable substrate are disclosed. A method of flexographic printing comprises: transferring the liquid from an anilox roll to a printing surface of the plasma-treated flexographic printing plate and transferring the liquid from the printing surface of the plasma-treated flexographic printing plate to a surface of the substrate. A method of plasma treating the flexographic printing plate comprises exposing at least the printing surface of the flexographic printing plate to a plasma.Type: ApplicationFiled: October 3, 2014Publication date: September 15, 2016Inventors: Shawn C. Dodds, John P. Baetzold, Moses M. David, Mikhail L. Pekurovsky, Kim B. Saulsbury, Matthew S. Stay
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Publication number: 20160244641Abstract: A system and a method for making a web having a complex topography. A substrate having coatable material is contacted by a face-side roller having grooves set into the major surface thereof, the coatable material is then split between the face side roller and the substrate, resulting in a textured surface having a first area associated with the splitting from the major surface, and a second area resulting from splitting associated with areas of the face-side roller having grooves. Raised ridge features produced from the splitting step interconnect portions within the first area, and portions within the second area, and in between the first and second area.Type: ApplicationFiled: October 9, 2014Publication date: August 25, 2016Applicant: 3M INNOVATIVE PROPERTIES COMPANYInventors: John P. Baetzold, Mitchell A. F. Johnson, Steven J. McMan, Frank T. Sher, Robert A. Yapel, Patrick J. Yeshe
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Publication number: 20160103250Abstract: The present invention relates to protection films comprising an optical film suitably sized for an illuminated display device, the optical film having perimeter surface portions defining a central region. The protection film further comprises a pressure sensitive adhesive layer at the perimeter surface portions of the optical film. The optical film and/or pressure sensitive adhesive layer has been adapted such that the at least the central region of the optical film contacts the illuminated display device or the central region of the optical film is bonded to the illuminated display device by means of a self-wetting layer. The protection film may be preassembled or may be provided as a kit, the kit comprising an optical film and a double-faced pressure sensitive tape.Type: ApplicationFiled: April 14, 2014Publication date: April 14, 2016Inventors: Thomas M. Snyder, Michelle L. Toy, Scott M. Tapio, Audrey A. Sherman, Joan M. Noyola, Patrick E. Bisek, John P. Baetzold, John J. Stradinger
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Patent number: 9229253Abstract: An electronically switchable privacy films suitable for use in display devices are described. The electronically switchable privacy film comprises a pair of mutually opposing transparent electrodes; an optically transparent microstructured layer disposed between the transparent electrodes, the microstructured layer comprising a plurality of microstructured ribs extending across a surface thereof such that the microstructured ribs form an alternating series of ribs and channels; and electronically switchable material disposed in the channels, the electronically switchable material being capable of modulation between high and low absorption states upon application of an electric field across the transparent electrodes.Type: GrantFiled: September 20, 2012Date of Patent: January 5, 2016Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Evan L. Schwartz, Mark J. Pellerite, Daniel W. Hennen, Marc D. Radcliffe, Michael L. Steiner, Marie A. Boulos, Michael E. Lauters, Gary T. Boyd, John P. Baetzold, John J. Stradinger, Vivian W. Jones
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Patent number: 9229261Abstract: An electronically switchable privacy film suitable for use in display devices are described. The electronically switchable privacy film comprises a pair of mutually opposing transparent electrodes; an optically transparent microstructured layer disposed between the transparent electrodes, the microstructured layer comprising a plurality of microstructured ribs extending across a surface thereof such that the microstructured ribs form an alternating series of ribs and channels; and electronically switchable material disposed in the channels, the electronically switchable material being capable of modulation between high and low light scattering states upon application of an electric field across the transparent electrodes.Type: GrantFiled: September 26, 2012Date of Patent: January 5, 2016Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Evan L. Schwartz, Mark J. Pellerite, Daniel W. Hennen, Marc D. Radcliffe, Michael L. Steiner, Marie A. Boulos, Michael E. Lauters, Gary T. Boyd, John P. Baetzold, John J. Stradinger, Vivian W. Jones
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Publication number: 20150316955Abstract: A method of patterning a conductive layer to form transparent electrical conductors that does not require etching is disclosed. The method includes peeling a strippable polymer layer from a substrate coated with the conductive layer to pattern the conductive layer. In some embodiments, a resist matrix material is patterned over the conductive layer to prevent removal of the conductive layer beneath the resist matrix material. In other embodiments, a liner having a pressure sensitive adhesive surface is brought into contact with the patterned strippable polymer material to remove both the patterned strippable polymer material and the conductive layer beneath it.Type: ApplicationFiled: December 2, 2013Publication date: November 5, 2015Inventors: Shawn C. Dodds, Matthew S. Stay, Mikhail L. Pekurovsky, Matthew H. Frey, Mark J. Pellerite, John P. Baetzold
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Patent number: 9081413Abstract: A system for human interaction based upon intention detection. The system includes a sensor for providing information relating to a posture of a person detected by the sensor, a processor, and a display device. The processor is configured to receive the information from the sensor and process the received information in order to determine if an event occurred. This processing includes determining whether the posture of the person indicates a particular intention, such as attempting to take a photo. If the event occurred, the processor is configured to provide an interaction with the person via the display device such as displaying a message or the address of a web site.Type: GrantFiled: November 20, 2012Date of Patent: July 14, 2015Assignee: 3M INNOVATIVE PROPERTIES COMPANYInventors: Shuguang Wu, Jun Xiao, Glenn E. Casner, John P. Baetzold, Kenneth C. Reily, Kandyce M. Bohannon
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Publication number: 20140332254Abstract: A transparent electrical conductor (10; 20), comprising a transparent substrate (14; 201); a composite layer (18; 28) comprising an electrically conductive layer (12) disposed on at least a portion of a major surface of the transparent substrate (14; 201) and comprising a plurality of interconnecting metallic nanowires, and a polymeric overcoat layer (16) disposed on at least a portion of the electrically conductive layer (12); wherein a pattern in the composite layer includes an x-axis and a y-axis of an x-y plane of the composite layer and a z-axis into the x-y plane of the composite layer, and the pattern defines a plurality of electrically conductive regions (24, 24?) in the x-y plane of the composite layer (18; 28), wherein the electrically conductive regions (24, 24?) are separated from each other by electrically insulative traces (21), each of which defines a valley into the z-axis of the x-y plane of the composite layer (18; 28), the valley having a maximum depth (27) in a range from 50 nanometers toType: ApplicationFiled: December 10, 2012Publication date: November 13, 2014Inventors: Mark J. Pellerite, John P. Baetzold, John J. Stradinger, Pingfan Wu, Hyacinth L. Lechuga, Manoj Nirmal
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Publication number: 20140299364Abstract: A transparent conductive article includes a transparent substrate, a thin electrically conductive grid, and a carbon nanolayer. The grid is disposed on the substrate, and the carbon nanolayer is also disposed on the substrate and in contact with the grid. The conductive grid and the carbon nanolayer may have thicknesses of no more than 1 micron and 50 nanometers, respectively. The carbon nanolayer has a morphology that includes graphite platelets embedded in nano-crystalline carbon, and can be produced with a buffing procedure using dry carbon particles without substantially damaging the grid structure. The article may have a visible light transmission of at least 80%, and a sheet resistance less than 500 or 100 ohms/square. The transparent substrate may comprise a flexible polymer film. The disclosed articles may substantially maintain an initial sheet resistance value when subjected to flexing.Type: ApplicationFiled: December 12, 2012Publication date: October 9, 2014Inventors: Ranjityh Divigalpitiya, Mark J. Pellerite, John P. Baetzold, Gary A. Korba, Mieczyslaw H. Mazurek
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Publication number: 20140232960Abstract: An electronically switchable privacy films suitable for use in display devices are described. The electronically switchable privacy film comprises a pair of mutually opposing transparent electrodes; an optically transparent microstructured layer disposed between the transparent electrodes, the microstructured layer comprising a plurality of microstructured ribs extending across a surface thereof such that the microstructured ribs form an alternating series of ribs and channels; and electronically switchable material disposed in the channels, the electronically switchable material being capable of modulation between high and low absorption states upon application of an electric field across the transparent electrodes.Type: ApplicationFiled: September 20, 2012Publication date: August 21, 2014Inventors: Evan L. Schwartz, Mark J. Pellerite, Daniel W. Hennen, Marc D. Radcliffe, Michael L. Steiner, Marie A. Boulos, Michael E. Lauters, Gary T. Boyd, John P. Baetzold, John J. Stradinger, Vivian W. Jones
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Publication number: 20140226093Abstract: An electronically switchable privacy film suitable for use in display devices are described. The electronically switchable privacy film comprises a pair of mutually opposing transparent electrodes; an optically transparent microstructured layer disposed between the transparent electrodes, the microstructured layer comprising a plurality of microstructured ribs extending across a surface thereof such that the microstructured ribs form an alternating series of ribs and channels; and electronically switchable material disposed in the channels, the electronically switchable material being capable of modulation between high and low light scattering states upon application of an electric field across the transparent electrodes.Type: ApplicationFiled: September 26, 2012Publication date: August 14, 2014Applicant: 3M INNOVATIVE PROPERTIES COMPANYInventors: Evan L. Schwartz, Mark J. Pellerite, Daniel W. Hennen, Marc D. Radcliffe, Michael L. Steiner, Marie A. Boulos, Michael E. Lauters, Gary T. Boyd, John P. Baetzold, John J. Stradinger, Vivian W. Jones
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Patent number: D747320Type: GrantFiled: July 1, 2013Date of Patent: January 12, 2016Assignee: 3M Innovative Properties CompanyInventors: Thomas M. Snyder, Audrey A. Sherman, Joan M. Noyola, John P. Baetzold