Patents Assigned to YewSavin, Inc.
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Publication number: 20250090565Abstract: Various embodiments of the invention utilize chalcones to treat blood, bleeding, and/or bleeding disorders. As described herein, chalcones significantly reduce blood clotting time in normal/hemophilic blood and normal/hemophilic animal models. As also described herein, chalcones reduced blood clotting time and increased clotting efficiency in blood without any apparent risk of immunogenicity or risk of unwanted blood clots. As also described herein, chalcones reduce the inhibitory activity of antithrombin on thrombin-driven blood clotting, thereby increasing the effectiveness of the thrombin mechanism in clotting blood.Type: ApplicationFiled: May 8, 2024Publication date: March 20, 2025Applicant: YewSavin, Inc.Inventors: Makarand Prabhakar Gore, Ashay Makarand Gore
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Publication number: 20230190679Abstract: Various embodiments of the invention utilize chalcones to treat blood, bleeding, and/or bleeding disorders. As described herein, chalcones significantly reduce blood clotting time in normal/hemophilic blood and normal/hemophilic animal models. As also described herein, chalcones reduce blood clotting time and increase blood clotting efficiency without any apparent risk of immunogenicity or unwanted blood clots. As also described herein, chalcones reduce the inhibitory activity of antithrombin on thrombin-driven blood clotting, thereby increasing the effectiveness of the thrombin mechanism in clotting blood.Type: ApplicationFiled: November 9, 2022Publication date: June 22, 2023Applicant: YewSavin, Inc.Inventors: Makarand Prabhakar Gore, Ashay Makarand Gore
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Patent number: 11625106Abstract: Various implementations of the invention comprise a surface or film having a plurality of three-dimensional structures embodied on or within the surface or film, each of the three-dimensional structures having a reflecting surface configured to retro-reflect radiation from a radiation source back to a detector located at the radiation source.Type: GrantFiled: August 5, 2020Date of Patent: April 11, 2023Assignee: YewSavin, Inc.Inventor: Makarand Prabhakar Gore
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Publication number: 20200387236Abstract: Various implementations of the invention comprise a surface or film having a plurality of three-dimensional structures embodied on or within the surface or film, each of the three-dimensional structures having a reflecting surface configured to retro-reflect radiation from a radiation source back to a detector located at the radiation source.Type: ApplicationFiled: August 5, 2020Publication date: December 10, 2020Applicant: YewSavin, Inc.Inventor: Makarand Prabhakar Gore
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Patent number: 10754442Abstract: Various implementations of the invention comprise a surface or film having a plurality of three-dimensional structures embodied on or within the surface or film, each of the three-dimensional structures having a reflecting surface configured to retro-reflect radiation from a radiation source back to a detector located at the radiation source.Type: GrantFiled: July 8, 2016Date of Patent: August 25, 2020Assignee: YewSavin, Inc.Inventor: Makarand Prabhakar Gore
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Patent number: 8384404Abstract: Described herein are processes and apparatuses for preparation and optimization of photovoltaic films and film stacks with application of electrical pulses. The process achieves high photovoltaic efficiency upon application of conditioning electrical pulses to the stack or layers of deposited photovoltaic films. This may be done at manufacture, or in the field at certain time intervals. The films of photovoltaic devices may be optimized by application of programmed voltage pulses. Furthermore, it is possible to deliver larger portion of energy from the pulse to a particular layer of a multi-stack film by rendering one or more layers of the film relatively more conductive using exposure to selected narrow wavelength of light corresponding to the band gap of the particular layer.Type: GrantFiled: August 24, 2010Date of Patent: February 26, 2013Assignee: YewSavin, Inc.Inventor: Makarand Prabhakar Gore
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Publication number: 20120048327Abstract: Described herein are processes and apparatuses for preparation and optimization of photovoltaic films and film stacks with application of electrical pulses. The process achieves high photovoltaic efficiency upon application of conditioning electrical pulses to the stack or layers of deposited photovoltaic films. This may be done at manufacture, or in the field at certain time intervals. The films of photovoltaic devices may be optimized by application of programmed voltage pulses. Furthermore, it is possible to deliver larger portion of energy from the pulse to a particular layer of a multi-stack film by rendering one or more layers of the film relatively more conductive using exposure to selected narrow wavelength of light corresponding to the band gap of the particular layer.Type: ApplicationFiled: August 24, 2010Publication date: March 1, 2012Applicant: YewSavin, Inc.Inventor: Makarand P. Gore
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Publication number: 20110111336Abstract: An absorber with significant absorbance matching the processing radiation is included in the compositions for efficient capture of energy. Embodiments of the present disclosure can also be viewed as providing compositions that have a functional film precursor such as an ink that might include, a colorant, toner, polymer, dye, pigment, or a reactive component such as polymer precursors, and an absorber that is capable of absorbing radiation wavelength that is “matched” to the waveband of the processing radiation.Type: ApplicationFiled: November 8, 2010Publication date: May 12, 2011Applicant: YewSavin, Inc.Inventor: Makarand P. Gore
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Publication number: 20110108773Abstract: Methods and systems disclosed herein involve conversion of precursors to electronic films with many properties such as conductor, resistor, semiconductor, photovoltaic, insulator and optical conversion films. There are a large number of materials such as transition metal oxides, metals, combination oxides that may be deposited as organic precursors and subsequently processed by radiated energy. In practice of the systems and methods disclosed herein, the films are processed by a “matched” radiation to either intrinsic absorption of the film precursors, or due to an added absorber to the film precursors. Since many of the precursors have been previously described as “Metal-Organic” precursors, the process can be described as “Metal-Organic Deposition by Enhanced Light-Absorption” (MODEL-A).Type: ApplicationFiled: November 8, 2010Publication date: May 12, 2011Applicant: YewSavin, Inc.Inventor: Makarand P. Gore
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Publication number: 20110111134Abstract: Described herein are systems and methods for deposition of films using energy dispensers combined with film-material dispensers. The processes achieve high energy efficiency and speed by deposition of film materials that absorb energy in a designed radiation band, coupled with delivery of energy using a radiation source with a band matched to the absorbance band of the film deposition material. It is possible to use the energy for drying, fusion, chemical conversion, sintering of the deposited materials to produce films for visual, graphic or electronic applications. The process does not cause significant heating of substrates. The energy can be delivered to specified material deposition locations, thus using substantially less energy than bulk heating.Type: ApplicationFiled: October 26, 2010Publication date: May 12, 2011Applicant: YewSavin, Inc.Inventor: Makarand P. Gore