Patents by Inventor Alan Forsythe
Alan Forsythe 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: 20220186072Abstract: A coating is applied in one or more layers on a granular material, such as a granular fertilizer material or the like. The coating may include a diisocyanate in either pure form or partially polymerized form, a polyol or polyol mix, and optionally a wax. The polyol or polyol mix may be, for example, a polyester polyol, a polyether polyol, or combinations thereof. In some examples, the polyol or polyol mix may be an aliphatic glycerine initiated polyether polyol, an aliphatic amine initiated trifunctional polyol, castor oil or castor oil derivative, or ethylene diamine that has been propoxylated or ethoxylated, and combinations thereof. The coating is reacted on the granular material.Type: ApplicationFiled: March 4, 2022Publication date: June 16, 2022Applicant: NOUS, LLCInventors: Robert Michael Goodwin, II, Joshua Tyler Green, James Trevor Reed, Christopher Eric Jones, Phillip Alan Forsythe
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Patent number: 11267986Abstract: A coating is applied in one or more layers on a granular material, such as a granular fertilizer material or the like. The coating may include a diisocyanate in either pure form or partially polymerized form, a polyol or polyol mix, and optionally a wax. The polyol or polyol mix may be, for example, a polyester polyol, a polyether polyol, or combinations thereof. In some examples, the polyol or polyol mix may be an aliphatic glycerine initiated polyether polyol, an aliphatic amine initiated trifunctional polyol, castor oil or castor oil derivative, or ethylene diamine that has been propoxylated or ethoxylated, and combinations thereof. The coating is reacted on the granular material.Type: GrantFiled: February 10, 2020Date of Patent: March 8, 2022Assignee: NOUS, LLCInventors: Robert Michael Goodwin, II, Joshua Tyler Green, James Trevor Reed, Christopher Eric Jones, Phillip Alan Forsythe
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Patent number: 11262128Abstract: A fluidized bed system is a single unitary modular system that packages a circulation fan, a fluidized bed, and a dust collection system within a same structure. The structure is formed to include internal ducts to provide fluid communication between the circulation fan, the fluidized bed, and the dust collection system. The fan provides a flow of air via a pressure duct to the fluidized bed. Particulate is separated from particles included on the fluidized bed by the flow of air being uniformly distributed to the fluidized bed. Particulate separated in a disengagement area and suspended in the flow of air is conducted through a particulate clearance space surrounding the dust collection system. The particulate is captured by the dust collection system and conveyed to a location external to the system.Type: GrantFiled: June 9, 2020Date of Patent: March 1, 2022Assignee: NOUS, LLCInventors: Phillip Alan Forsythe, Charles Ryan Mowery, James Trevor Reed, Christopher Eric Jones
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Publication number: 20200300545Abstract: A fluidized bed system is a single unitary modular system that packages a circulation fan, a fluidized bed, and a dust collection system within a same structure. The structure is formed to include internal ducts to provide fluid communication between the circulation fan, the fluidized bed, and the dust collection system. The fan provides a flow of air via a pressure duct to the fluidized bed. Particulate is separated from particles included on the fluidized bed by the flow of air being uniformly distributed to the fluidized bed. Particulate separated in a disengagement area and suspended in the flow of air is conducted through a particulate clearance space surrounding the dust collection system. The particulate is captured by the dust collection system and conveyed to a location external to the system.Type: ApplicationFiled: June 9, 2020Publication date: September 24, 2020Applicant: Nous, LLCInventors: Phillip Alan Forsythe, Charles Ryan Mowery, James Trevor Reed, Christopher Eric Jones
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Patent number: 10690412Abstract: A fluidized bed system is a single unitary modular system that packages a circulation fan, a fluidized bed, and a dust collection system within a same structure. The structure is formed to include internal ducts to provide fluid communication between the circulation fan, the fluidized bed, and the dust collection system. The fan provides a flow of air via a pressure duct to the fluidized bed. Particulate is separated from particles included on the fluidized bed by the flow of air being uniformly distributed to the fluidized bed. Particulate separated in a disengagement area and suspended in the flow of air is conducted through a particulate clearance space surrounding the dust collection system. The particulate is captured by the dust collection system and conveyed to a location external to the system.Type: GrantFiled: February 19, 2018Date of Patent: June 23, 2020Assignee: Nous, LLCInventors: Phillip Alan Forsythe, Charles Ryan Mowery, James Trevor Reed, Christopher Eric Jones
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Publication number: 20200190356Abstract: A coating is applied in one or more layers on a granular material, such as a granular fertilizer material or the like. The coating may include a diisocyanate in either pure form or partially polymerized form, a polyol or polyol mix, and optionally a wax. The polyol or polyol mix may be, for example, a polyester polyol, a polyether polyol, or combinations thereof. In some examples, the polyol or polyol mix may be an aliphatic glycerine initiated polyether polyol, an aliphatic amine initiated trifunctional polyol, castor oil or castor oil derivative, or ethylene diamine that has been propoxylated or ethoxylated, and combinations thereof. The coating is reacted on the granular material.Type: ApplicationFiled: February 10, 2020Publication date: June 18, 2020Applicant: Nous, LLCInventors: Robert Michael Goodwin, II, Joshua Tyler Green, James Trevor Reed, Christopher Eric Jones, Phillip Alan Forsythe
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Patent number: 10563089Abstract: A coating is applied in one or more layers on a granular material, such as a granular fertilizer material or the like. The coating may include a diisocyanate in either pure form or partially polymerized form, a polyol or polyol mix, and optionally a wax. The polyol or polyol mix may be, for example, a polyester polyol, a polyether polyol, or combinations thereof. In some examples, the polyol or polyol mix may be an aliphatic glycerine initiated polyether polyol, an aliphatic amine initiated trifunctional polyol, castor oil or castor oil derivative, or ethylene diamine that has been propoxylated or ethoxylated, and combinations thereof. The coating is reacted on the granular material.Type: GrantFiled: October 5, 2017Date of Patent: February 18, 2020Assignee: Nous, LLCInventors: Robert Michael Goodwin, II, Joshua Tyler Green, James Trevor Reed, Christopher Eric Jones, Phillip Alan Forsythe
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Publication number: 20180238623Abstract: A fluidized bed system is a single unitary modular system that packages a circulation fan, a fluidized bed, and a dust collection system within a same structure. The structure is formed to include internal ducts to provide fluid communication between the circulation fan, the fluidized bed, and the dust collection system. The fan provides a flow of air via a pressure duct to the fluidized bed. Particulate is separated from particles included on the fluidized bed by the flow of air being uniformly distributed to the fluidized bed. Particulate separated in a disengagement area and suspended in the flow of air is conducted through a particulate clearance space surrounding the dust collection system. The particulate is captured by the dust collection system and conveyed to a location external to the system.Type: ApplicationFiled: February 19, 2018Publication date: August 23, 2018Applicant: Nous, LLCInventors: Phillip Alan Forsythe, Charles Ryan Mowery, James Trevor Reed, Christopher Eric Jones
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Publication number: 20180094163Abstract: A coating is applied in one or more layers on a granular material, such as a granular fertilizer material or the like. The coating may include a diisocyanate in either pure form or partially polymerized form, a polyol or polyol mix, and optionally a wax. The polyol or polyol mix may be, for example, a polyester polyol, a polyether polyol, or combinations thereof. In some examples, the polyol or polyol mix may be an aliphatic glycerine initiated polyether polyol, an aliphatic amine initiated trifunctional polyol, castor oil or castor oil derivative, or ethylene diamine that has been propoxylated or ethoxylated, and combinations thereof. The coating is reacted on the granular material.Type: ApplicationFiled: October 5, 2017Publication date: April 5, 2018Applicant: Nous, LLCInventors: Robert Michael Goodwin, II, Joshua Tyler Green, James Trevor Reed, Christopher Eric Jones, Phillip Alan Forsythe
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Patent number: 8981365Abstract: A method of manufacturing an organic light emissive device comprising: depositing an organic light emissive layer over an anode and depositing a cathode over the organic light emissive layer, wherein the cathode comprises a trilayer structure formed by: depositing a first layer comprising an electron injecting material; depositing a second layer over the first layer, the second layer comprising a metallic material having a workfunction greater than 3.5 eV; and depositing a third layer over the second layer, the third layer comprising a metallic material having a workfunction greater than 3.5 eV.Type: GrantFiled: December 18, 2013Date of Patent: March 17, 2015Assignees: Cambridge Display Technology Limited, Sumitomo Chemical Co., Ltd.Inventors: Daniel Alan Forsythe, Simon King, Matthew Roberts
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Publication number: 20140103326Abstract: A method of manufacturing an organic light emissive device comprising: depositing an organic light emissive layer over an anode and depositing a cathode over the organic light emissive layer, wherein the cathode comprises a trilayer structure formed by: depositing a first layer comprising an electron injecting material; depositing a second layer over the first layer, the second layer comprising a metallic material having a workfunction greater than 3.5 eV; and depositing a third layer over the second layer, the third layer comprising a metallic material having a workfunction greater than 3.5 eV.Type: ApplicationFiled: December 18, 2013Publication date: April 17, 2014Applicants: SUMITOMO CHEMICAL CO., LTD., CAMBRIDGE DISPLAY TECHNOLOGY LIMITEDInventors: Daniel Alan Forsythe, Simon King, Matthew Roberts
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Patent number: 8648334Abstract: A method of manufacturing an organic light emissive device comprising: depositing an organic light emissive layer over an anode and depositing a cathode over the organic light emissive layer, wherein the cathode comprises a trilayer structure formed by: depositing a first layer comprising an electron injecting material; depositing a second layer over the first layer, the second layer comprising a metallic material having a workfunction greater than 3.5 eV; and depositing a third layer over the second layer, the third layer comprising a metallic material having a workfunction greater than 3.5 eV.Type: GrantFiled: March 31, 2009Date of Patent: February 11, 2014Assignees: Cambridge Display Technology Limited, Sumitomo Chemical Co., Ltd.Inventors: Daniel Alan Forsythe, Simon King, Matthew Roberts
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Patent number: 8182851Abstract: This invention provides a control release formulation or rumen-bypass dietary supplement in compacted form. The formulation or supplement has the capability to transport fatty acid calcium salt and between about 1-75 percent of one or more rumen-protected undegraded biologically active agents to the post-ruminal digestive system of a ruminant. A feedstock containing the formulation or supplement for ruminants beneficially improves feed efficiency and body growth. The feedstock also is adapted to improve the lactational performance of dairy cattle.Type: GrantFiled: April 9, 2009Date of Patent: May 22, 2012Assignee: Church & Dwight Co., Inc.Inventors: Edward A. Roman, Robert A. Hendel, Phillip Alan Forsythe, Steven A. Bolkan, William J. Zuccarello, Zbigniew Senk
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Patent number: 7989255Abstract: A method of forming an optical device comprising the steps of: providing a substrate comprising a first electrode capable of injecting or accepting charge carriers of a first type; forming over the first electrode a first layer that is at least partially insoluble in a solvent by depositing a first semiconducting material that is free of cross-linkable vinyl or ethynyl groups and is, at the time of deposition, soluble in the solvent; forming a second layer in contact with the first layer and comprising a second semiconducting material by depositing a second semiconducting material from a solution in the solvent; and forming over the second layer a second electrode capable of injecting or accepting charge carriers of a second type wherein the first layer is rendered at least partially insoluble by one or more of heat, vacuum and ambient drying treatment following deposition of the first semiconducting material.Type: GrantFiled: May 12, 2009Date of Patent: August 2, 2011Assignees: Cambridge Display Technology Limited, General Electric CompanyInventors: Craig Edward Murphy, Salvatore Cina, Timothy Butler, Matthew Roberts, Nalinkumar Lallubhai Patel, Clare Louise Foden, Mark Levence Leadbeater, Daniel Alan Forsythe, Robert Sidney Archer, Nicholas de Brissac Baynes, Nathan Luke Phillips, Anil Raj Duggal, Jie Liu
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Publication number: 20110057229Abstract: A method of manufacturing an organic light emissive device comprising: depositing an organic light emissive layer over an anode and depositing a cathode over the organic light emissive layer, wherein the cathode comprises a trilayer structure formed by: depositing a first layer comprising an electron injecting material; depositing a second layer over the first layer, the second layer comprising a metallic material having a workfunction greater than 3.5 eV; and depositing a third layer over the second layer, the third layer comprising a metallic material having a workfunction greater than 3.5 eV.Type: ApplicationFiled: March 31, 2009Publication date: March 10, 2011Applicants: CAMBRIDGE DISPLAY TECHNOLOGY LIMITED, SUMATION COMPANY LIMITEDInventors: Daniel Alan Forsythe, Simon King, Matthew Roberts
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Publication number: 20090252833Abstract: This invention provides a control release formulation or rumen-bypass dietary supplement in compacted form. The formulation or supplement has the capability to transport fatty acid calcium salt and between about 1-75 percent of one or more rumen-protected undegraded biologically active agents to the post-ruminal digestive system of a ruminant. A feedstock containing the formulation or supplement for ruminants beneficially improves feed efficiency and body growth. The feedstock also is adapted to improve the lactational performance of dairy cattle.Type: ApplicationFiled: April 9, 2009Publication date: October 8, 2009Inventors: Edward A. Roman, Robert A. Hendel, Phillip Alan Forsythe, Steven A. Bolkan, William J. Zuccarello, Zbigniew Senk
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Publication number: 20090227052Abstract: A method of forming an optical device comprising the steps of: providing a substrate comprising a first electrode capable of injecting or accepting charge carriers of a first type; forming over the first electrode a first layer that is at least partially insoluble in a solvent by depositing a first semiconducting material that is free of cross-linkable vinyl or ethynyl groups and is, at the time of deposition, soluble in the solvent; forming a second layer in contact with the first layer and comprising a second semiconducting material by depositing a second semiconducting material from a solution in the solvent; and forming over the second layer a second electrode capable of injecting or accepting charge carriers of a second type wherein the first layer is rendered at least partially insoluble by one or more of heat, vacuum and ambient drying treatment following deposition of the first semiconducting material.Type: ApplicationFiled: May 12, 2009Publication date: September 10, 2009Applicants: CAMBRIDGE DISPLAY TECHNOLOGY LIMITED, GENERAL ELECTRIC COMPANYInventors: Craig Edward Murphy, Salvatore Cina, Timothy Butler, Matthew Roberts, Nalinkumar Lallubhai Patel, Clare Louise Foden, Mark Levence Leadbeater, Daniel Alan Forsythe, Robert Sidney Archer, Nicholas de Brissac Baynes, Nathan Luke Phillips, Anil Raj Duggal, Jie Liu
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Patent number: 7531377Abstract: A method of forming an optical device comprising the steps of: providing a substrate comprising a first electrode capable of injecting or accepting charge carriers of a first type; forming over the first electrode a first layer that is at least partially insoluble in a solvent by depositing a first semiconducting material that is free of cross-linkable vinyl or ethynyl groups and is, at the time of deposition, soluble in the solvent; forming a second layer in contact with the first layer and comprising a second semiconducting material by depositing a second semiconducting material from a solution in the solvent; and forming over the second layer a second electrode capable of injecting or accepting charge carriers of a second type wherein the first layer is rendered at least partially insoluble by one or more of heat, vacuum and ambient drying treatment following deposition of the first semiconducting material.Type: GrantFiled: September 3, 2003Date of Patent: May 12, 2009Assignee: Cambridge Display Technology LimitedInventors: Craig Edward Murphy, Salvatore Cina, Timothy Butler, Matthew Roberts, Nalinkumar Lallubhai Patel, Clare Louise Foden, Mark Levence Leadbeater, Daniel Alan Forsythe, Robert Sidney Archer, Nicholas de Brissac Baynes, Nathan Luke Phillips, Anil Raj Duggal, Jie Liu
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Publication number: 20060097830Abstract: A relatively rugged and simple solenoid-actuated valve (100) is disclosed having a coil assembly (150), including a bobbin (152), a winding (160) for generating a magnetic field, and a flux path bracket (162). A fixed pole piece (110) extends into the axial volume defined by the bobbin. The coil assembly may be encased in a plastic outer body (101). An armature (120) is slidably disposed in the axial volume and a valve seat (130) closes the opposite end of the axial volume. A conical spring (140) biases the armature toward a first position against the valve seat. An inlet fitting (106) and an outlet fitting (104) fluidly connect to the axial volume. The armature is movable by the magnetic field generated by the winding from the first position to a second position away from the valve seat, such that the valve can be selectively opened and closed.Type: ApplicationFiled: November 5, 2004Publication date: May 11, 2006Applicant: GT Development CorporationInventors: Alan Forsythe, John Morris, Charles Stephens
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Publication number: 20050081331Abstract: A knob attachment assembly formed in accordance with one embodiment of the present invention is provided. The knob attachment assembly includes a control device housing (105) and an actuation member (106) coupled to the control device housing, the actuation member including a first engagement surface (140). The knob attachment assembly further includes a gripping device (104) including a first interference surface (158), the gripping device being selectively coupled to the actuation member and positionable between a locked position, wherein the gripping device is coupled to the actuation member by interference of the first engagement surface and the first interference surface, and an unlocked position, wherein the gripping device is removable from the actuation member.Type: ApplicationFiled: October 17, 2003Publication date: April 21, 2005Inventor: Alan Forsythe