Patents by Inventor Mason K. Harrup
Mason K. Harrup 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: 20110301286Abstract: An additive comprising a phosphazene compound that has at least two reactive functional groups and at least one capping functional group bonded to phosphorus atoms of the phosphazene compound. One of the at least two reactive functional groups is configured to react with cellulose and the other of the at least two reactive functional groups is configured to react with a resin, such as an amine resin or a polycarboxylic acid resin. The at least one capping functional group is selected from the group consisting of a short chain ether group, an alkoxy group, and an aryloxy group. Also disclosed are an additive-resin admixture, a method of treating a wood product, and a wood product.Type: ApplicationFiled: May 27, 2011Publication date: December 8, 2011Applicant: BATTELLE ENERGY ALLIANCE, LLC.Inventors: Mason K. Harrup, Harry W. Rollins
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Publication number: 20110100091Abstract: A taggant comprising at least one perfluorocarbon compound surrounded by a polyphosphazene compound. The polyphosphazene compound has the chemical structure: wherein G1 and G2 are pendant groups having different polarities, m is an integer greater than or equal to 100, and each of A and B is independently selected from hydrogen, an alkyl, an alkene, an alkoxide, a polyether, a polythioether, a siloxane, and —X(CH2)nY1(CH2)p1Y2(CH2)p2 . . . Yi(CH2)piCH3, where n ranges from 1 to 6, X and Y are independently selected from oxygen, sulfur, selenium, tellurium, and polonium, and p1 through pi range from 1 to 6. Cyclic polyphosphazene compounds lacking the A and B groups are also disclosed, as are methods of forming the taggant and of detecting an object.Type: ApplicationFiled: November 5, 2009Publication date: May 5, 2011Applicant: BATTELLE ENERGY ALLIANCE, LLCInventors: Mason K. Harrup, Frederick F. Stewart, Mark L. Stone
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Patent number: 7799293Abstract: Methods of separating actinides from lanthanides are disclosed. A regio-specific/stereo-specific dithiophosphinic acid having organic moieties is provided in an organic solvent that is then contacted with an acidic medium containing an actinide and a lanthanide. The method can extend to separating actinides from one another. Actinides are extracted as a complex with the dithiophosphinic acid. Separation compositions include an aqueous phase, an organic phase, dithiophosphinic acid, and at least one actinide. The compositions may include additional actinides and/or lanthanides. A method of producing a dithiophosphinic acid comprising at least two organic moieties selected from aromatics and alkyls, each moiety having at least one functional group is also disclosed. A source of sulfur is reacted with a halophosphine. An ammonium salt of the dithiophosphinic acid product is precipitated out of the reaction mixture. The precipitated salt is dissolved in ether.Type: GrantFiled: September 11, 2006Date of Patent: September 21, 2010Assignee: Battelle Energy Alliance, LLCInventors: Dean R. Peterman, John R. Klaehn, Mason K. Harrup, Richard D. Tillotson, Jack D. Law
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Publication number: 20100150798Abstract: Methods of separating actinides from lanthanides are disclosed. A regio-specific/stereo-specific dithiophosphinic acid having organic moieties is provided in an organic solvent that is then contacted with an acidic medium containing an actinide and a lanthanide. The method can extend to separating actinides from one another. Actinides are extracted as a complex with the dithiophosphinic acid. Separation compositions include an aqueous phase, an organic phase, dithiophosphinic acid, and at least one actinide. The compositions may include additional actinides and/or lanthanides. A method of producing a dithiophosphinic acid comprising at least two organic moieties selected from aromatics and alkyls, each moiety having at least one functional group is also disclosed. A source of sulfur is reacted with a halophosphine. An ammonium salt of the dithiophosphinic acid product is precipitated out of the reaction mixture. The precipitated salt is dissolved in ether.Type: ApplicationFiled: September 11, 2006Publication date: June 17, 2010Inventors: Dean R. Peterman, John R. Klaehn, Mason K. Harrup, Richard D. Tillotson, Jack D. Law
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Patent number: 7704468Abstract: An extraction agent for the separation of trivalent actinides from lanthanides in an acidic media and a method for forming same are described, and wherein the methodology produces a stable regiospecific and/or stereospecific dithiophosphinic acid that can operate in an acidic media having a pH of less than about 7.Type: GrantFiled: September 21, 2005Date of Patent: April 27, 2010Assignee: Battelle Energy Alliance, LLCInventors: John R. Klaehn, Mason K. Harrup, Jack D. Law, Dean R. Peterman
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Publication number: 20100094042Abstract: An extraction agent for the separation of trivalent actinides from lanthanides in an acidic media and a method for forming same are described, and wherein the methodology produces a stable regiospecific and/or stereospecific dithiophosphinic acid that can operate in an acidic media having a pH of less than about 7.Type: ApplicationFiled: September 21, 2005Publication date: April 15, 2010Inventors: John R. Klaehn, Mason K. Harrup, Jack D. Law, Dean R. Peterman
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Publication number: 20080188932Abstract: Embodiments include polymeric coatings formed from poly((perfluoro)organo)phosphazene-based materials. The coatings may be utilized to coat any suitable substrates, and in some embodiments may be utilized to coat surfaces of medical implants. The poly((perfluoro)organo)phosphazene-based materials may contain some fluorine-containing groups, and some crosslinkable moieties. The poly((perfluoro)organo)phosphazene-based materials may also contain some groups suitable for covalent bonding with surfaces of particular substrates. For instance, the poly((perfluoro)organo)phosphazene-based materials may include amine-containing groups for covalently bonding to urethane surfaces.Type: ApplicationFiled: February 7, 2007Publication date: August 7, 2008Inventors: Mason K. Harrup, Frederick F. Stewart, Thomas A. Luther
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Patent number: 7285362Abstract: An ion transporting solvent maintains very low vapor pressure, contains flame retarding elements, and is nontoxic. The solvent in combination with common battery electrolyte salts can be used to replace the current carbonate electrolyte solution, creating a safer battery. It can also be used in combination with polymer gels or solid polymer electrolytes to produce polymer batteries with enhanced conductivity characteristics. The solvents may comprise a class of cyclic and acyclic low molecular weight phosphazenes compounds, comprising repeating phosphorus and nitrogen units forming a core backbone and ion-carrying pendent groups bound to the phosphorus. In preferred embodiments, the cyclic phosphazene comprises at least 3 phosphorus and nitrogen units, and the pendent groups are polyethers, polythioethers, polyether/polythioethers or any combination thereof, and/or other groups preferably comprising other atoms from Group 6B of the periodic table of elements.Type: GrantFiled: May 17, 2004Date of Patent: October 23, 2007Assignee: Battelle Energy Alliance, LLCInventors: Mason K. Harrup, Joseph R. Delmastro, Frederick F. Stewart, Thomas A. Luther
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Patent number: 7217755Abstract: Nanocomposite materials having a composition including an inorganic constituent, a preformed organic polymer constituent, and a metal ion sequestration constituent are disclosed. The nanocomposites are characterized by being single phase, substantially homogeneous materials wherein the preformed polymer constituent and the inorganic constituent form an interpenetrating network with each other. The inorganic constituent may be an inorganic oxide, such as silicon dioxide, formed by the in situ catalyzed condensation of an inorganic precursor in the presence of the solvated polymer and metal ion sequestration constituent. The polymer constituent may be any hydrophilic polymer capable of forming a type I nanocomposite such as, polyacrylonitrile (PAN), polyethyleneoxide (PEO), polyethylene glycol (PEG), polyvinyl acetate (PVAc), polyvinyl alcohol (PVA), and combinations thereof. Nanocomposite materials of the present invention may be used as permeable reactive barriers (PRBs) to remediate contaminated groundwater.Type: GrantFiled: December 9, 2003Date of Patent: May 15, 2007Assignee: Battelle Energy Alliance, LLCInventors: Mason K. Harrup, Frederick F. Stewart
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Patent number: 7074256Abstract: A polyphosphazene having a glass transition temperature (“Tg”) of approximately ?20° C. or less. The polyphosphazene has at least one pendant group attached to a backbone of the polyphosphazene, wherein the pendant group has no halogen atoms. In addition, no aromatic groups are attached to an oxygen atom that is bound to a phosphorus atom of the backbone. The polyphosphazene may have a Tg ranging from approximately ?100° C. to approximately ?20° C. The polyphosphazene may be selected from the group consisting of poly[bis-3-phenyl-1-propoxy)phosphazene], poly[bis-(2-phenyl-1-ethoxy)phosphazene], poly[bis-(dodecanoxypolyethoxy)-phosphazene], and poly[bis-(2-(2-(2-?-undecylenyloxyethoxy)ethoxy)ethoxy)phosphazene]. The polyphosphazene may be used in a separation membrane to selectively separate individual gases from a gas mixture, such as to separate polar gases from nonpolar gases in the gas mixture.Type: GrantFiled: May 13, 2004Date of Patent: July 11, 2006Assignee: Battelle Energy Alliance, LLCInventors: Frederick F. Stewart, Mason K. Harrup, Christopher J. Orme, Thomas A. Luther
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Patent number: 7008564Abstract: A solid molecular composite polymer-based electrolyte is made for batteries, wherein silicate compositing produces a electrolytic polymer with a semi-rigid silicate condensate framework, and then mechanical-stabilization by radiation of the outer surface of the composited material is done to form a durable and non-tacky texture on the electrolyte. The preferred ultraviolet radiation produces this desirable outer surface by creating a thin, shallow skin of crosslinked polymer on the composite material. Preferably, a short-duration of low-medium range ultraviolet radiation is used to crosslink the polymers only a short distance into the polymer, so that the properties of the bulk of the polymer and the bulk of the molecular composite material remain unchanged, but the tough and stable skin formed on the outer surface lends durability and processability to the entire composite material product.Type: GrantFiled: July 11, 2002Date of Patent: March 7, 2006Assignee: Battelle Energy Alliance, LLCInventors: Mason K. Harrup, Frederick F. Stewart, Eric S. Peterson
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Publication number: 20040009404Abstract: A solid molecular composite polymer-based electrolyte is made for batteries, wherein silicate compositing produces a electrolytic polymer with a semi-rigid silicate condensate framework, and then mechanical-stabilization by radiation of the outer surface of the composited material is done to form a durable and non-tacky texture on the electrolyte. The preferred ultraviolet radiation produces this desirable outer surface by creating a thin, shallow skin of crosslinked polymer on the composite material. Preferably, a short-duration of low-medium range ultraviolet radiation is used to crosslink the polymers only a short distance into the polymer, so that the properties of the bulk of the polymer and the bulk of the molecular composite material remain unchanged, but the tough and stable skin formed on the outer surface lends durability and processability to the entire composite material product.Type: ApplicationFiled: July 11, 2002Publication date: January 15, 2004Inventors: Mason K. Harrup, Frederick F. Stewart, Eric S. Peterson
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Patent number: 6576335Abstract: A solid material for recovering metal ions from aqueous streams, and methods of making and using the solid material, are disclosed. The solid material is made by covalently bonding a chelating agent to a silica-based solid, or in-situ condensing ceramic precursors along with the chelating agent to accomplish the covalent bonding. The chelating agent preferably comprises a oxime type chelating head, preferably a salicylaldoxime-type molecule, with an organic tail covalently bonded to the head. The hydrocarbon tail includes a carbon-carbon double bond, which is instrumental in the step of covalently bonding the tail to the silica-based solid or the in-situ condensation. The invented solid material may be contacted directly with aqueous streams containing metal ions, and is selective to ions such as copper (II) even in the presence of such ions as iron (III) and other materials that are present in earthen materials.Type: GrantFiled: December 20, 2000Date of Patent: June 10, 2003Assignee: Bechtel BWXT Idaho, LLCInventors: Mason K. Harrup, John E. Wey, Eric S. Peterson
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Patent number: 6544690Abstract: This invention is in solid polymer-based electrolytes for battery applications. It uses molecular composite technology, coupled with unique preparation techniques to render a self-doped, stabilized electrolyte material suitable for inclusion in both primary and secondary batteries. In particular, a salt is incorporated in a nano-composite material formed by the in situ catalyzed condensation of a ceramic precursor in the presence of a solvated polymer material, utilizing a condensation agent comprised of at least one cation amenable to SPE applications. As such, the counterion in the condensation agent used in the formation of the molecular composite is already present as the electrolyte matrix develops.Type: GrantFiled: July 28, 2000Date of Patent: April 8, 2003Assignee: Bechtel BWXT Idaho, LLCInventors: Mason K. Harrup, Alan K. Wertsching, Frederick F. Stewart
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Publication number: 20020114961Abstract: A solid material for recovering metal ions from aqueous streams, and methods of making and using the solid material, are disclosed. The solid material is made by covalently bonding a chelating agent to a silica-based solid, or in-situ condensing ceramic precursors along with the chelating agent to accomplish the covalent bonding. The chelating agent preferably comprises a oxime type chelating head, preferably a salicylaldoxime-type molecule, with an organic tail covalently bonded to the head. The hydrocarbon tail includes a carbon-carbon double bond, which is instrumental in the step of covalently bonding the tail to the silica-based solid or the in-situ condensation. The invented solid material may be contacted directly with aqueous streams containing metal ions, and is selective to ions such as copper (II) even in the presence of such ions as iron (III) and other materials that are present in earthen materials.Type: ApplicationFiled: December 20, 2000Publication date: August 22, 2002Applicant: Bechtel BWTX Idaho, LLCInventors: Mason K. Harrup, John E. Wey, Eric S. Peterson
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Patent number: 6403755Abstract: A new phosphazene-based polyester macro-molecule is provided, as is a method for producing the macro-molecule.Type: GrantFiled: March 7, 2001Date of Patent: June 11, 2002Assignee: The United States of America as represented by the Department of EnergyInventors: Frederick F. Stewart, Thomas A. Luther, Mason K. Harrup
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Patent number: 6146787Abstract: In one implementation, a reactive metal-water battery includes an anode comprising a metal in atomic or alloy form selected from the group consisting of periodic table Group 1A metals, periodic table Group 2A metals and mixtures thereof. The battery includes a cathode comprising water. Such also includes a solid polymer electrolyte comprising a polyphosphazene comprising ligands bonded with a phosphazene polymer backbone. The ligands comprise an aromatic ring containing hydrophobic portion and a metal ion carrier portion. The metal ion carrier portion is bonded at one location with the polymer backbone and at another location with the aromatic ring containing hydrophobic portion. The invention also contemplates such solid polymer electrolytes use in reactive metal/water batteries, and in any other battery.Type: GrantFiled: November 11, 1998Date of Patent: November 14, 2000Assignee: Bechtel BWXT Idaho, LLCInventors: Mason K. Harrup, Eric S. Peterson, Frederick F. Stewart