Alcohol, Phenol, Ether, Aldehyde Or Ketone Patents (Class 502/172)
-
Patent number: 6841502Abstract: New ligands and compositions with bridged bis-aromatic ligands are disclosed that catalyze the polymerization of monomers into polymers. These catalysts with metal centers have high performance characteristics, including higher comonomer incorporation into ethylene/olefin copolymers, where such olefins are for example, 1-octene, propylene or styrene. The catalysts also polymerize propylene into isotactic polypropylene.Type: GrantFiled: April 23, 2003Date of Patent: January 11, 2005Assignee: Symyx Technologies, Inc.Inventors: Thomas R. Boussie, Oliver Brümmer, Gary M. Diamond, Christopher Goh, Anne M. LaPointe, Margarete K. Leclerc, James A. W. Shoemaker
-
Patent number: 6838409Abstract: Catalysts for copolymerization of olefins and styrenes, comprising (A) a transition metal compound, (B) an oxygen-containing compound and/or a compound capable of reacting with a transition metal compound to form an ionic complex, (C) a specific compound such as a reaction product of triphenylmethyl alcohol and triisobutylaluminium, and optionally (D) an alkylating agent, and methods for producing olefin-styrene copolymers in the presence of such catalysts, which catalysts have the advantages of enhancing the copolymerization activity and reducing the amount of the promoter such as oxygen-containing compounds, etc, and using them, olefin-styrene copolymers can be produced efficiently and inexpensively.Type: GrantFiled: February 25, 2000Date of Patent: January 4, 2005Assignee: Idemitsu Petrochemical Co., Ltd.Inventors: Nobuhiro Yabunouchi, Nobuhide Ishihara, Kiyohiko Yokota
-
Publication number: 20040229748Abstract: The present invention is to provide a composite carrier, which is spheric particles obtainable by contacting magnesium halide with one or more electron donor compounds to form a solution, then mixing the solution with silica material having an average particle size of less than 10 microns to form a mixture, and drying the mixture through spray drying process. The present invention is also to provide a catalyst component comprising said composite carrier. When the catalyst component is used together with a cocatalyst component in propylene polymerization, it exhibits higher polymerization activity and stereospecificity, and can be used to prepare high impact resistant ethylene-propylene copolymer having high ethylene content.Type: ApplicationFiled: February 19, 2004Publication date: November 18, 2004Applicants: CHINA PETROLEUM & CHEMICAL CORPORATION, BEIJING RESEARCH INSTITUTE OF CHEMICAL INDUSTRYInventors: Wei Chen, Tianyi Zhang, Hongbin Du, Xianzhi Xia, Tongxuan Zhang, Lixin Yan, Yisen Wang, Xinsheng Wang, Jiyu Li, Ping Gao, Maoping Yin, Luqiang Yu, Qingshan Ma, Xiaodong Wang
-
Patent number: 6818587Abstract: The invention relates to double-metal cyanide (DMC) catalysts for preparing polyether polyols by the polyaddition of alkylene oxides on to starter compounds containing active hydrogen atoms, wherein the DMC catalysts are composed of: a) at least one DMC compound; b) at least one organic complexing ligand which is not a cyclic polyol; and c) at least one cyclic polyol. The DMC catalysts of the present invention have increased activity compared to known catalyst.Type: GrantFiled: August 28, 2002Date of Patent: November 16, 2004Assignee: Bayer AktiengesellschaftInventors: Walter Schäfer, Jörg Hofmann, Pieter Ooms
-
Patent number: 6809056Abstract: The present invention relates to a process for manufacturing polyolefin polymerization catalysts and provides a process for manufacturing polyolefin polymerization catalysts, wherein after manufacturing a homogeneous solution of magnesium compounds using magnesium compounds and alcohols along with hydrocarbon solvents and contacting with titanium compounds by adding organic aluminum, the mixture is treated again with organic aluminum or alcohols having 5 or less carbon atoms, then contacted with titanium compounds. Polyolefin polymerization catalysts prepared by the preparation process of the present invention have superior polyolefin polymerization activities, they prepare polymers having high Melt Flow Ratios, and produce a lesser amount of fine particle polymers.Type: GrantFiled: January 31, 2001Date of Patent: October 26, 2004Assignee: LG Chemical LtdInventors: Hong-Ki Choi, Joo-Kee Yoon, Churl-Young Park, Jae-Seung Oh
-
Patent number: 6806224Abstract: A process for producing a supported metal catalyst which comprises reducing a metal halide in the liquid phase in the presence of a support material, an organic base and a reducing agent. In accordance with the process, the supported metal catalyst which comprises a metal component supported in the highly dispersed condition and exhibits high activity can be obtained easily.Type: GrantFiled: April 2, 2002Date of Patent: October 19, 2004Assignee: Mitsubishi Gas Chemical Company, Inc.Inventors: Jun Yoshihara, Takashi Motoi, Kazuaki Maeshima
-
Patent number: 6800787Abstract: A catalyst for acidolysis of an aromatic hydroperoxy compound, containing little scale, prepared by gasifying liquid sulfuric anhydride and dissolving gasified sulfuric anhydride in a ketone solvent, and a process for producing a hydroxy aromatic compound using the catalyst.Type: GrantFiled: September 30, 2003Date of Patent: October 5, 2004Assignee: Sumitomo Chemical Company, LimitedInventor: Mitsuru Oonuma
-
Patent number: 6800583Abstract: Catalyst suspensions for the ring-opening polymerization of alkylene oxides comprise a) at least one multimetal cyanide compound having a crystalline structure and a content of platelet-shaped particles of at least 30% by weight, based on the multimetal cyanide compound, and b) at least one organic complexing agent c) water and/or d) at least one polyether and/or e) at least one surface-active substance, with the proviso that at least component a) and at least two of the components b) to e) have to be present.Type: GrantFiled: June 2, 1999Date of Patent: October 5, 2004Assignee: BASF AktiengesellschaftInventors: Georg Heinrich Grosch, Kathrin Harre, Jörg Erbes, Reinhard Lorenz, Stephan Bauer, Thomas Ostrowski, Eva Baum, Dieter Junge, Edward Michael Dexheimer
-
Patent number: 6797665Abstract: The invention relates to double-metal cyanide catalysts for preparing polyols by the polyaddition of alkylene oxides on to starter compounds containing active hydrogen atoms, wherein the DMC catalysts are composed of: a) at least one double-metal cyanide compound; b) at least one organic complexing ligand; and, optionally, c) at least one functionalized polymer, wherein the organic complexing ligand is a mixture of a C3-C7 aliphatic alcohol and from about 2 to about 98 mole %, based on the total amount of organic complexing ligand, of a cyclic, aliphatic, cycloaliphatic or aromatic ketone. The DMC catalysts of the present invention have increased activity compared to known catalysts. Additionally, the DMC catalysts of the present invention can be used to prepare polyols with reduced high molecular weight components.Type: GrantFiled: May 10, 2002Date of Patent: September 28, 2004Assignee: Bayer AntwerpenInventor: Bi Le-Khac
-
Publication number: 20040186015Abstract: A process for producing a catalyst for use in producing a lower aliphatic carboxylic acid ester. The catalyst is used in reacting a lower olefin with a lower aliphatic carboxylic acid in a gas phase to produce a lower aliphatic carboxylic acid ester. The process comprises the following first and second steps. The first step is a step of loading one or more heteropolyacid on a support to obtain a heteropolyacid supported catalyst. The second step is a step of contacting the heteropolyacid supported catalyst obtained in the first step with a gas containing at least one member selected from the group consisting of water, a lower aliphatic carboxylic acid and a lower aliphatic alcohol to obtain a catalyst for use in producing a lower aliphatic carboxylic acid ester.Type: ApplicationFiled: March 31, 2004Publication date: September 23, 2004Applicant: SHOWA DENKO K.K.Inventors: Etsuko Kadowaki, Kousuke Narumi, Hiroshi Uchida
-
Patent number: 6794327Abstract: The present invention provides a supramolecular structure produced by the process comprising reacting a multi-generation dendrimer with a monomer, where the dendrimer comprises a core molecule, a plurality of interior generations spherically disposed around the core molecule and an outermost generation comprising a plurality of dendritic branches having terminal groups sufficiently reactive to undergo addition or substitution reactions, where the monomer introduces a labile bond and at least one cross-linkable moiety to the terminal groups of each dendritic branch, and where the cross-linkable moiety is bonded to the terminal group via the labile bond; crosslinking the cross-linkable moieties of adjacent dendritic branches; and cleaving the labile bonds, thereby freeing the dendrimer and forming a molecule encapsulated within a cross-linked shell molecule. The present invention further provides a process for the production of the supramolecular structures.Type: GrantFiled: June 22, 2001Date of Patent: September 21, 2004Assignee: The University of AkronInventors: Wiley J. Youngs, Claire A. Tessier, Peter L. Rinaldi, Yanhui Niu
-
Patent number: 6790804Abstract: A process of forming a polyolefin catalyst component includes contacting a metal compound of the formula MR2 with a diketone to form a metal bis(diketonate) having the formula M(OCRCR′CRO)2, wherein M is a Group IIA or Group VIIB metal, and wherein R and R′ are each hydrocarbyls or substituted hydrocarbyls having from 1 to 20 carbons atoms. Catalyst components, catalysts, polyolefin polymers, catalysts systems, and methods of preparing same are disclosed.Type: GrantFiled: June 27, 2002Date of Patent: September 14, 2004Assignee: Fina Technology, Inc.Inventors: Steven D. Gray, Tim J. Coffy, Edwar S. Shamshoum
-
Patent number: 6777449Abstract: When elemental iron is in the presence of chlorinated compounds (contaminants) a naturally occurring reaction takes place and the chlorinated compounds are reduced and form harmless compounds. The production of extremely small metal particles containing elemental iron or a mixture of elemental iron and a second metal is imperative to this method of treating contaminants and is the subject of the present invention. When the particle is made small enough a surfactant is not required for the particle to do its job. The elemental metal may be kept in an elemental state by keeping it in an oxygen-scavenging environment. This is achieved by either suspending the nanoscale metal in a carbohydrate solution or by injecting a carbohydrate solution in atomized form into the gas used to inject the metal into the subsurface soil.Type: GrantFiled: December 19, 2001Date of Patent: August 17, 2004Assignee: Case Logic, Inc.Inventors: David Vance, Suthan S. Suthersan, Peter Palmer
-
Patent number: 6777365Abstract: The invention relates to a magnesium compound effective in producing olefin polymers having an increased bulk density and a narrowed particle size distribution, not lowering the stereospecificity of the polymers produced and not lowering the polymerization activity in producing the polymers, to an olefin polymerization catalyst comprising the compound, and to a method for producing such olefin polymers. The olefin polymerization catalyst comprises (A) a solid catalyst component prepared by contacting a magnesium compound having a specific particle size distribution index (P), a titanium compound and an electron donor compound with each other, (B) an organometallic compound, and (C) an electron donor. The olefin polymerization method comprises polymerizing an olefin in the presence of the catalyst to give olefin polymers.Type: GrantFiled: December 11, 2000Date of Patent: August 17, 2004Assignee: Idemitsu Petrochemical Co., Ltd.Inventors: Shohjiroh Tanase, Takehiro Tsuda, Tsuyoshi Ota, Hideo Funabashi
-
Patent number: 6770588Abstract: A reductive system including a silane, preferably PMHS, and an active zinc compound, which is monomeric and not a hydride, wherein a reduction of a carbonyl substrate to a corresponding alcohol is achievable.Type: GrantFiled: January 16, 2003Date of Patent: August 3, 2004Assignee: Firmenich SAInventor: Hubert Mimoun
-
Patent number: 6770773Abstract: The present invention relates to ferroxanes and a method of making wherein a ferroxane may be defined by the general formula [Fe(O)x(OH)y(O2CR)z]n wherein x, y and z may be any integer or fraction such that 2x+y+z=3 and n may be any integer. The ferroxanes may be doped with at least one other element other than iron. The present invention further relates to a ceramic made from the ferroxanes of the present invention and a method of making. The present invention still further relates to supported and unsupported membranes made from the ceramic of the present invention.Type: GrantFiled: January 24, 2003Date of Patent: August 3, 2004Assignee: William Marsh Rice UniversityInventors: Jerome Rose, Mark Wiesner, Andrew Barron
-
Publication number: 20040147706Abstract: A composition suitable for use as a catalyst for the reaction of an isocyanate compound or prepolymer thereof with an alcohol to form a polyurethane comprises a mixture of (a)an organometallic compound selected from: (i) a compound of formula M(RO)4, where M is titanium, zirconium, hafnium, aluminium, cobalt or iron or a mixture of these metals and OR is the residue of an alcohol ROH in which R comprises an (optionally substituted) C1-30 cyclic, branched or linear, alkyl, alkenyl, aryl or alkyl-aryl group or a mixture thereof, or; (ii) a complex of titanium, zirconium and/or hafnium and an acetoacetate ester and (b) a coordinating compound selected from a ketone, aldhehyde, carboxylic acid, sulphonic acid, nitride or an imine. An isocyanate composition containing a catalyst of the claimed composition is also described.Type: ApplicationFiled: December 1, 2003Publication date: July 29, 2004Inventor: Bruno Frederic Stengel
-
Patent number: 6767929Abstract: A catalyst for producing a polyurethane, comprising a dialkylaminoalkyl alcohol represented by the formula (I): R1R2N—X—OH (I) wherein each of R1 and R2 is independently an alkyl group having 1 to 4 carbon atoms; and X is a branched alkylene group having 4 to 8 carbon atoms; a process for producing a polyurethane, comprising reacting a polyol component with an isocyanate component in the presence of the above-mentioned catalyst for producing a polyurethane; and a process for producing a polyurethane foam, comprising reacting a polyol component with an isocyanate component in the presence of the above-mentioned catalyst for producing a polyurethane, and a compound having a primary amino group and a tertiary amino group in its molecule, and a blowing agent.Type: GrantFiled: June 17, 2002Date of Patent: July 27, 2004Assignee: Kao CorporationInventors: Atsushi Ishikawa, Mitsuru Sakai, Masayoshi Morii
-
Publication number: 20040138057Abstract: The present invention relates to a catalyst composition and a method for making the catalyst composition of a polymerization catalyst and an organic polyhydroxyl compound. The invention is also directed to the use of the catalyst composition in the polymerization of olefin(s). In particular, the polymerization catalyst system is supported on a carrier. More particularly, the polymerization catalyst comprises a bulky ligand metallocene-type catalyst system.Type: ApplicationFiled: December 23, 2003Publication date: July 15, 2004Inventor: Timothy T. Wenzel
-
Patent number: 6762146Abstract: A novel intercalation compound is provided, in which compound monohydric alcohol is intercalated between layers of a layered compound comprising vanadium, phosphorus and oxygen as primary components, characterized in that the monohydric alcohol is aliphatic secondary monohydric alcohol, alicyclic monohydric alcohol, or aromatic monohydric alcohol. By heating the intercalation compound, a vanadium-phosphorus mixed oxide having a BET specific surface area of at least 80 m2/g can be obtained.Type: GrantFiled: October 23, 2001Date of Patent: July 13, 2004Assignee: Tonen Chemical CorporationInventors: Yuichi Kamiya, Eiichiro Nishikawa
-
Publication number: 20040121901Abstract: The present development relates to a process for enrobing active catalytic materials with a protective coating to form pastilles, and to an apparatus for making the pastilles. The process comprises mixing an active catalyst powder with a hydrocarbon material in a low-shear jacketed blender at a temperature slightly above the congealing point of the hydrocarbon, and then making pastilles from the catalyst/hydrocarbon mixture while cooling the mixture to temperature below the congealing point of the hydrocarbon.Type: ApplicationFiled: December 19, 2002Publication date: June 24, 2004Inventors: David C. Wolfe, Paul D. Schneider, Robert O'Brien, X.D. Hu, Jeff Braden, Patrick McLaughlin, Joe Stack
-
Patent number: 6723228Abstract: An additive used in catalytic cracking of hydrocarbons, which is in the form of homogeneous liquid and comprises a composite metal compound, wherein said composite metal compound consists of the oxides, hydroxides, organic acid salts, inorganic acid salts or metal organic complex compounds of at least one of the 1st group metals and at least one of the 2nd group metals, wherein the 1st group metals are selected from the group consisting of the metals of the IIIA, IVA, VA, VIA groups of the Element Period Table, boron, silicon, phosphorous and tellurium; wherein the 2nd group metals are selected from the group consisting of alkali-earth metals, transition metals, and rare earth metals, is disclosed. A process of catalytic cracking of hydrocarbons, utilizing the additive is also disclosed. The additive can passivate metals and promote the oxidation of CO, and is operated easily with production cost decreased.Type: GrantFiled: June 11, 2003Date of Patent: April 20, 2004Assignees: China Petrochemical Corporation, Luoyang Petrochemical Engineering CorporationInventors: Shuqin Su, Guoliang Wang, Haiqing Guo, Xianliang Deng, Longyan Wang, Wenyi Qi, Shufang Liu, Baojian Shen, Jinlong Liu, Dongming Zhao
-
Publication number: 20040072681Abstract: A solid catalyst component for olefin polymerization characterized by being formed from (a) a magnesium compound, (b) titanium tetrachloride, (c) a phthalic diester and a derivative thereof, and either (d1) a hydroxylated hydrocarbon compound (phenol, etc.) represented by a specific formula or (d2) a mercapto-containing hydrocarbon compound (thiophenol, etc.) represented by a specific formula. With a catalyst obtained from this solid catalyst component, an olefin polymer can be obtained in extremely high yield.Type: ApplicationFiled: January 24, 2002Publication date: April 15, 2004Inventors: Kunihiko Tashino, Isa Nishiyama, Takuma Yoshida, Yukihiro Suzuki, Hayashi Ogawa, Maki Sato
-
Publication number: 20040068066Abstract: The invention provides a catalyst system (preferably a heterogeneous catalyst system) comprising: a transition metal bisphenolate catalyst (preferably a group 4 to 6 transition metal bisphenolate catalyst) and another olefin polymerization catalyst, and optionally a co-catalyst, e.g. an organoaluminium compound or a boron compound.Type: ApplicationFiled: August 20, 2003Publication date: April 8, 2004Inventors: Richard Blom, Klaus J. Jens, Arlid Follestad, Olav B. Ryan
-
Patent number: 6709824Abstract: The present invention provides methods and compositions, i.e. synthetic libraries of candidate compounds, useful in the discovery and optimization of compounds which catalyze at least one chemical transformation. In certain instances, the subject compounds catalyze a chemoselective, regioselective, stereoselective or enantioselective transformation.Type: GrantFiled: September 24, 2001Date of Patent: March 23, 2004Assignee: President and Fellows of Harvard CollegeInventors: Eric N. Jacobsen, Matthew S. Sigman
-
Publication number: 20040053775Abstract: Functionalized amine derivatives are prepared by reacting an amine, a carbonyl derivative, and an organoboron compound under mild conditions. Organoboronic acids (4) react with amines (2) and alpha-hydroxy aldehydes (3) to give anti-alpha-amino alcohols (1) with very high diastereoselectivities (>99% de). When optically pure alpha-hydroxy aldehydes are used in this process, no racemization occurs and the products are obtained with very high enantioselectivities (>99% ee). The reaction also works with unprotected glyceraldehyde to give the corresponding amino diol derivatives, while unprotected carbohydrates give the corresponding amino polyols. The chiral amino alcohol products of this process or their derivatives, react further with metals or non-metals to give adducts that are effective catalysts for a variety of asymmetric reactions.Type: ApplicationFiled: August 4, 2003Publication date: March 18, 2004Applicant: UNIVERSITY OF SOUTHERN CALIFORNIA, a California corporationInventor: Nicos A. Petasis
-
Publication number: 20040030172Abstract: A mixed metal oxide, which may be an orthorhombic phase material, is improved as a catalyst for the production of unsaturated carboxylic acids, or unsaturated nitrites, from alkanes, or mixtures of alkanes and alkenes, by contact with a liquid contacting member selected from the group consisting of organic acids, alcohols, inorganic acids and hydrogen peroxide.Type: ApplicationFiled: August 7, 2003Publication date: February 12, 2004Inventor: Leonard Edward Bogan
-
Publication number: 20040029721Abstract: The present invention provides a catalytic activity accelerant. The accelerant is added to stock oil for increasing the catalyst activity, the depth of catalytic hydrogenation and the yield of catalytic hydrogenation product, degrading the reaction conditions of catalytic hydrogenation, and improving the quality of product. The catalytic activity accelerant is consisted of an alkyl succinimide derivative, an alkyl phenol and a surfactant. The amount of the alkyl succinimide derivative in the accelerant is 5-70 wt. %. The amount of the alkyl phenol in the accelerant is 2-70 wt. %. The amount of the surfactant in the accelerant is 2-70 wt.Type: ApplicationFiled: May 22, 2003Publication date: February 12, 2004Inventors: Jintang Wang, Jianning Guan, Houliang Dai, Lijin Zhou, Minghui Tang, Yuming Zhang, Pingkai Ouyang, Chengfeng Li, Chaorong Dai, Jingyi Wang
-
Patent number: 6686307Abstract: The present invention relates to MgCl2.mROH.nH2O adducts, where R is a C1-C10 alkyl, 2≦m≦4.2, 0≦n≦0.7, characterized by an X-ray diffraction spectrum in which, in the range of 2&thgr; diffraction angles between 5° and 15°, the three main diffraction lines are present at diffraction angles 2&thgr; of 8.8±0.2°, 9.4±0.2° and 9.8±0.2°, the most intense diffraction lines being the one at 2&thgr;=8.8±0.2°, the intensity of the other two diffraction lines being at least 0.2 times the intensity of the most intense diffraction line. Catalyst components obtained from the adducts of the present invention are capable to give catalysts for the polymerization of olefins characterized by enhanced activity and stereospecificity with respect to the catalysts prepared from the adducts of the prior art.Type: GrantFiled: November 5, 2001Date of Patent: February 3, 2004Assignee: Basell Technology Company B.V.Inventors: Mario Sacchetti, Gabriele Govoni, Anna Fait
-
Patent number: 6680275Abstract: A complex catalyst for asymmetric epoxidation of enones containing an optically active binaphthol, lanthanum triisopropoxide, triphenylphosphine oxide substituted with electron withdrawing groups in the parapositions of the phenyl groups, and cumene hydroperoxide or tert-butyl hydroperoxide.Type: GrantFiled: February 21, 2001Date of Patent: January 20, 2004Assignee: Tosoh CorporationInventors: Junji Inanaga, Takumi Kagawa
-
Publication number: 20030228973Abstract: The invention provides initiator systems capable of initiating polymerization. More specifically, the invention relates to initiator systems comprising a complexed initiator and a &bgr;-ketone compound decomplexer. The invention further relates to the use of these initiator systems for initiating polymerization, as well as kits, bonding compositions, and polymerized compositions made therewith, and coated substrates and bonded articles prepared therefrom.Type: ApplicationFiled: December 31, 2001Publication date: December 11, 2003Applicant: 3M Innovative Properties CompanyInventor: Dean M. Moren
-
Patent number: 6660681Abstract: A catalyst comprising vanadium phosphorus oxide combined with a thermally conductive material is particularly useful for the selective hydrocarbon oxidations (e.g., butane to maleic anhydride) and can be prepared by forming a suspension comprising a vanadium (IV) phosphate compound in a liquid medium (via hydrochloric acid digestion of V2O5 and H3PO4 in an aqueous solvent or via heating vanadium pentoxide with at least one substantially anhydrous unsubstituted alcohol having 1-10 carbon atoms, 1-3 hydroxyl groups free from olefinic double bonds to form a feed of vanadium pentoxide reduced to a valence between 4 and 4.6, and then contacting the feed with a solution of orthophosphoric acid and at least one unsubstituted alcohol), adding a thermally conductive material to the suspension under agitation at moderated temperature between 40° C. and 120° C., followed by drying, optionally but preferably washing and calcining (either in situ or ex situ) the material thus formed.Type: GrantFiled: October 9, 2001Date of Patent: December 9, 2003Assignee: E. I. du Pont de Nemours and CompanyInventors: Marc J. Ledoux, Baudain Heinrich, Jan Joseph Lerou, Claude Crouzet, Christophe Bouchy, Kostantinos Kourtakis
-
Patent number: 6645908Abstract: Described is a method for producing copolymerized sol-gel derived sorbent particles for the production of copolymerized sol-gel derived sorbent material. The method for producing copolymerized sol-gel derived sorbent particles comprises adding a basic solution to an aqueous metal alkoxide mixture for a pH≦8 to hydrolyze the metal alkoxides. Then, allowing the mixture to react at room temperature for a precalculated period of time for the mixture to undergo an increased in viscosity to obtain a desired pore size and surface area. The copolymerized mixture is then added to an immiscible, nonpolar solvent that has been heated to a sufficient temperature wherein the copolymerized mixture forms a solid upon the addition. The solid is recovered from the mixture, and is ready for use in an active sampling trap or activated for use in a passive sampling trap.Type: GrantFiled: October 10, 2000Date of Patent: November 11, 2003Assignee: UT-Battelle, LLCInventors: Michael E. Sigman, Amy B. Dindal
-
Publication number: 20030181320Abstract: The present invention relates to ferroxanes and a method of making wherein a ferroxane may be defined by the general formula [Fe(O)x(OH)y(O2CR)z]n wherein x, y and z may be any integer or fraction such that 2x+y+z=3 and n may be any integer. The ferroxanes may be doped with at least one other element other than iron. The present invention further relates to a ceramic made from the ferroxanes of the present invention and a method of making. The present invention still further relates to supported and unsupported membranes made from the ceramic of the present invention.Type: ApplicationFiled: January 24, 2003Publication date: September 25, 2003Inventors: Jerome Rose, Mark Wiesner, Andrew Barron
-
Patent number: 6607586Abstract: An apparatus for removing particles from air, including an inlet for receiving a flow of air, a first chamber in flow communication with the inlet, wherein a charged spray of semi-conducting fluid droplets having a first polarity is introduced to the air flow so that the particles are electrostatically attracted to and retained by the spray droplets, and an outlet in flow communication with the first chamber, wherein the air flow exits the apparatus substantially free of the particles. The first chamber of the apparatus further includes a collecting surface for attracting the spray droplets, a power supply, and a spray nozzle connected to the power supply for receiving fluid and producing the spray droplets therefrom. The apparatus may also include a second chamber in flow communication with the inlet at a first end and the first chamber at a second end, wherein particles entrained in the air flow are charged with a second polarity opposite the first polarity prior to the air flow entering the first chamber.Type: GrantFiled: October 29, 2001Date of Patent: August 19, 2003Assignee: The Procter & Gamble CompanyInventors: Alan David Willey, Vladimir Gartstein, Marta Lea Verhoff, Mehmet Suha Yazici
-
Patent number: 6607579Abstract: An apparatus for removing particles from air, including an inlet for receiving a flow of air, a first chamber in flow communication with the inlet, wherein a charged spray of semi-conducting fluid droplets having a first polarity is introduced to the air flow so that the particles are electrostatically attracted to and retained by the spray droplets, and an outlet in flow communication with the first chamber, wherein the air flow exits the apparatus substantially free of the particles. The first chamber of the apparatus further includes a collecting surface for attracting the spray droplets, a power supply, and a spray nozzle connected to the power supply for receiving fluid and producing the spray droplets therefrom. The apparatus may also include a second chamber in flow communication with the inlet at a first end and the first chamber at a second end, wherein particles entrained in the air flow are charged with a second polarity opposite the first polarity prior to the air flow entering the first chamber.Type: GrantFiled: October 29, 2001Date of Patent: August 19, 2003Assignee: The Procter & Gamble CompanyInventors: Alan David Willey, Vladimir Gartstein, Chinto Benjamin Gaw, Marta Lea Verhoff, James Henry Saunders, Jean Angela Jefferson, Robert Scott Youngquist
-
Patent number: 6608231Abstract: The invention relates to novel double metal cyanide (DMC) catalysts for the preparation of polyether polyols by polyaddition of alkylene oxides to starter compounds containing active hydrogen atoms, wherein the catalyst contains a) double metal cyanide compounds, b) organic complex ligands other than c), and c) carboxylic acid ester of polyhydric alcohols. The catalysts according to the invention have greatly increased activity in the preparation of polyether polyols.Type: GrantFiled: March 13, 2001Date of Patent: August 19, 2003Assignee: Bayer AktiengesellschaftInventors: Pieter Ooms, Jörg Hofmann, Pramod Gupta
-
Patent number: 6602817Abstract: Functionalized amine derivatives are prepared by reacting an amine, a carbonyl derivative, and an organoboron compound under mild conditions. Organoboronic acids react with amines and alpha-hydroxy aldehydes to give anti-alpha-amino alcohols with very high diastereoselectivities (>99% de). When optically pure alpha-hydroxy aldehydes are used in this process, no racemization occurs and the products are obtained with very high enantioselectivities (>99% ee). The reaction also works with unprotected glyceraldehyde to give the corresponding amino diol derivatives, while unprotected carbohydrates give the corresponding amino polyols. The chiral amino alcohol products of this process or their derivatives, react further with metals or non-metals to give adducts that are effective catalysts for a variety of asymmetric reactions. Overall, the present invention relies on the facile synthesis of the chiral amino alcohol ligands for the rapid construction of combinatorial libraries of chiral catalysts.Type: GrantFiled: October 22, 1999Date of Patent: August 5, 2003Assignee: University of Southern CaliforniaInventor: Nicos A. Petasis
-
Publication number: 20030143156Abstract: The present invention relates to a supported catalyst system. The supported catalyst of the present invention comprises an inorganic support having attached to at least one surface thereof non-acidic, hydrophillic, hydroxyl-containing organic R10 groups having no or substantially no surface charge in solution, and at least one linker capable of binding a catalytic species, e.g. an enzyme or an organometallic molecule, wherein the linker is attached to a catalytic species. The R10 groups preferably are selected from the group consisting of —CH2OH, —CH(OH)2, —CH(OH)CH3, —CH2CH2OH, —CH(OH)2CH3, —CH2CH(OH)2, —CH(OH)CH2(OH) and mixtures thereof. The presence of the R10 groups on the support surface prevents or reduces non-specific binding of the catalytic species with the support surface by minimizing hydrophobic interactions and providing no or substantially no surface charge in the region of the support having catalytic species attached thereto.Type: ApplicationFiled: February 3, 2003Publication date: July 31, 2003Inventor: Richard Franklin Wormsbecher
-
Publication number: 20030134739Abstract: A method of preparing catalyst agglomerates for electrochemical devices is provided. The method comprises dispersing particles of a catalyst in a non-aqueous solvent to form a dispersion of the catalyst, adding an ion conducting polymer in a dilute solution to the dispersion of the catalyst under agitation to form catalyst agglomerates, and stirring the dispersion of the catalyst and the catalyst agglomerates to control the growth of the agglomerates. A directly applicable catalyst composition is also provided. The catalyst composition comprises the catalyst agglomerates prepared according to the present invention, a solvent to plasticize surfaces of the catalyst agglomerates and the membrane, and a non-aqueous carrier solvent.Type: ApplicationFiled: November 21, 2002Publication date: July 17, 2003Inventors: Philip Cox, Suk-Yal Cha, Gouyan Hou, Ngan Tran, Anh Duong
-
Patent number: 6586564Abstract: The invention relates to double-metal cyanide (DMC) catalysts for preparing polyether polyols by the polyaddition of alkylene oxides on to starter compounds containing active hydrogen atoms, wherein the DMC catalysts are composed of: a) at least one DMC compound; b) at least one organic complexing ligand which is not a coronand; and c) at least one coronand. The DMC catalysts of the present invention have increased activity compared to known catalysts.Type: GrantFiled: August 28, 2002Date of Patent: July 1, 2003Assignee: Bayer AktiengesellschaftInventors: Walter Schäfer, Jörg Hofmann, Pieter Ooms
-
Patent number: 6583083Abstract: This invention relates to an olefin polymerization catalyst composition comprising the product of the combination of an activator, an additive and a transition metal compound which is represented by the formula: ((Z)XAt(YJ))qMQn where M is a metal selected from the group consisting of Groups 3 to 13, lanthanide and actinide metals of the Periodic Table of Elements; Q is bonded to M and each Q is a monovalent, divalent or trivalent anion; X and Y are bonded to M; X and Y are independently selected from the group consisting of nitrogen, oxygen, sulfur and phosphorous; Y is contained in a heterocyclic ring J, where J comprises from 2 to 50 non-hydrogen atoms, Z is bonded to X, where Z comprises 1 to 50 non-hydrogen atoms; t is 0 to 1; when t is 1, A is abridging group joined to at least one of X, Y or J, q is 1 or2; n is the oxidation state of M minus q minus 1 if Q is a monovalent anion, n is (the oxidation state of M−q)/2 if Q is a bivalent anion, or n is (the oxidation state of M−q)/3 if Q is aType: GrantFiled: May 29, 2001Date of Patent: June 24, 2003Assignee: Univation Technologies, LLCInventors: Rex E. Murray, Simon Mawson
-
Publication number: 20030100441Abstract: Olefins, such as ethylene, are polymerized using as a polymerization catalyst a complex of a selected transition metal with a monoanionic ligand that has at least three atoms that may coordinate to the transition metal. Also disclosed are the above selected transition metal complexes, and intermediates thereto.Type: ApplicationFiled: December 9, 2002Publication date: May 29, 2003Inventors: Steven Dale Ittel, Ying Wang
-
Publication number: 20030096699Abstract: The present invention relates to a process for preparing spherical support particles used in the preparation of catalytic components for the polymerization of olefins. The process comprises (a) forming an emulsion of an adduct of a Mg dihalide and a compound selected from the group consisting of Lewis bases in a liquid medium, (b) cooling the emulsion by transferring it into a cooling bath containing a cooling liquid in motion; the process being characterized in that the cooling liquid is moving inside a tubular zone and the ratio ve/vref of the velocity (ve) of the emulsion coming from step (a) to the velocity of the cooling liquid (vref) is between 0.25 and 4. The obtained spherical support particles are characterized by a very narrow size distribution and particularly regular morphology.Type: ApplicationFiled: October 7, 2002Publication date: May 22, 2003Inventors: Arrigo Arletti, Anna Fait
-
Publication number: 20030065230Abstract: A catalyst system that can be used to achieve (a) preparation of allylic alcohols by rearrangement of the corresponding epoxide, when the allylic alcohol is a desired product; (b) subsequent reaction, e.g., selective oxidation, of the allylic alcohols obtained in step (a) to afford a desired product, e.g., alpha, beta-unsaturated carbonyl compounds; and/or (c) the ability to perform steps a) and b) in a one-pot process. In one embodiment, the catalyst system includes (i) at least one primary catalyst includes one or more homogeneous or heterogeneous, inorganic, organic or complex metal-containing compound, and (ii) at least one activator/modifier comprising at least one phenolic compound.Type: ApplicationFiled: July 5, 2001Publication date: April 3, 2003Inventors: Gennadiy G. Kolomeyer, Jacob S. Oyloe
-
Patent number: 6541411Abstract: The invention relates to novel titanium/zirconium catalysts, and to a process for the preparation of these titanium/zirconium catalysts. The process comprises reacting orthoesters or condensed orthoesters of titanium and/or zirconium, with one or more polyalcohols. Suitable polyalcohols comprise those compounds having at least two hydroxyl groups and a number average molecular weight of at least 180 g/mol. The invention also relates to a process for preparing (poly)esters from these novel catalysts, which exhibit little discoloration and are suitable to be used as a reaction component in the preparation of polyurethane (PUR) foams.Type: GrantFiled: November 27, 2001Date of Patent: April 1, 2003Assignee: Bayer AktiengesellschaftInventors: Andreas Hoffmann, Hartmut Nefzger, Erika Bauer
-
Patent number: 6521564Abstract: A process for the modification of a hydrogenation catalyst of the Raney nickel, Raney cobalt, nickel-on-carrier or cobalt-on-carrier type, which process includes treating the hydrogenation catalyst at temperatures of about 0° C. to about 120° C. with carbon monoxide, carbon dioxide, formaldehyde, a lower aliphatic aldehyde, an aromatic aldehyde, an aliphatic ketone, an aromatic ketone, a mixed aliphatic/aromatic ketone, glyoxal, pyruvaldehyde or glyoxylic acid as the modification agent in a liquid dispersion medium consisting of water or an organic solvent for a duration of about 15 minutes to about 24 hours. When the thus-modified catalyst is used in the hydrogenation of a nitrile to the corresponding amine, the selectivity is increased, and significantly favors the amount of the primary amine vis-à-vis the undesired secondary amine in the hydrogenation product as compared to when the corresponding unmodified catalyst is employed.Type: GrantFiled: November 30, 2000Date of Patent: February 18, 2003Assignee: Roche Vitamins, Inc.Inventors: Oliver Gerald Degischer, Felix Roessler
-
Patent number: 6506704Abstract: A process for forming neutral late transition metal chelates useful as polymerization catalysts comprising contacting a bidentate ligand forming compound that is free of electron-withdrawing groups with a di(tertiary amine) late transition metal reagent in the presence of an inert liquid, an olefinic monomer or a polar liquid selected from nitrites, ethers, aromatic heterocyclic amines, alcohols, nitroalkanes, nitroaromatics or mixtures thereof. The process provides a solid product or a solution of a storage stable transition metal bidentate ligand containing catalyst product which remains active for an extended storage period. Alternately, the present process can be conducted in situ in a polymerization zone of olefinic polymerization.Type: GrantFiled: March 23, 1999Date of Patent: January 14, 2003Assignee: Cryovac, Inc.Inventors: Donald Albert Bansleben, Eric Francis Connor, Robert Howard Grubbs, Jason Ivan Henderson, Todd Ross Younkin
-
Patent number: 6495723Abstract: This invention provides a composition suitable for use in a reaction zone where aniline is reacted with nitrobenzene to obtain intermediates of 4-aminodiphenylamine comprising a solid support having interior channels with base material employed in the reaction loaded into the channels. The cross-sectional dimensions of the channels are such as to provide a restricted transition state with regard to the reaction and to improve the selectivity of the reaction in favor of the intermediates. The invention also provides a method for loading the base material in the solid support. The invention further provides a process for carrying out the above reaction using the above composition.Type: GrantFiled: June 21, 2000Date of Patent: December 17, 2002Assignee: Flexsys AmericaInventors: Antonio L. DeVera, Roger Keranan Rains
-
Patent number: 6495486Abstract: A novel intercalation compound is provided, in which compound monohydric alcohol is intercalated between layers of a layered compound comprising vanadium, phosphorus and oxygen as primary components, characterized in that the monohydric alcohol is aliphatic secondary monohydric alcohol, alicyclic monohydric alcohol, or aromatic monohydric alcohol. By heating the intercalation compound, a vanadium-phosphorus mixed oxide having a BET specific surface area of at least 80 m2/g can be obtained.Type: GrantFiled: June 27, 2000Date of Patent: December 17, 2002Assignees: Tonen Chemical Corporation, Japan Chemical Industry AssociationInventors: Yuichi Kamiya, Eiichiro Nishikawa