Abstract: Disclosed are new semiconductor materials prepared from naphthalene-imide copolymers. Such polymers can exhibit desirable electronic properties and can possess processing advantages including solution-processability and/or good stability at ambient conditions.
Type:
Application
Filed:
February 5, 2009
Publication date:
December 30, 2010
Inventors:
Antonio Facchetti, Zhihua Chen, He Yan, Yan Zheng, Jordan Quinn, Marcel Kastler, Florian Doetz, Silke Koehler
Abstract: The present invention relates to phase separated siloxane-hydrocarbon copolymer surfaces which are hard and hydrophobic and can be superhydrophobic by the addition of nanoparticles. More specifically the siloxane oligomer/polymer precursor is terminated with (a) chemically reactive group(s). The bond between the siloxane moiety and the hydrocarbon functional moiety is a Si atom directly bonded to a carbon atom. It is applied (for example) to the entire surface of a fibre reinforced and void-free polymer concrete core with 60 to 88% polymeric and inorganic fillers for application as a high voltage insulator. The product has high mechanical strength, impact resistance and good electrical insulation properties. The coating provides good UV resistance, hydrophobicity and a hard self-cleaning surface for use as outdoor high voltage electrical insulator in areas of high pollution with low leakage currents when energised and can also be applied to other products.
Abstract: A method of forming a golf ball is disclosed herein. The method includes placing a golf ball precursor product with a cover comprising a thermoplastic polyurethane material and a dendritic polymer in a solution containing an isocyanate functionality reactive material. The precursor product is then removed and heated to remove solvent to prepare the precursor product for finishing.
Abstract: A mixture is disclosed comprising phenolic resins B and saturated polyesters A wherein the polyesters A comprise building blocks derived from aliphatic dicarboxylic acids AA, diprimary dihydric cycloaliphatic alcohols AB, diprimary dihydric linear or branched, non-cyclic aliphatic alcohols AC containing ether links, diprimary linear or branched non-cyclic dihydric alcohols AD being free from ether linkages, aromatic dicarboxylic acids AE, trihydric or higher functional aliphatic alcohols AF, and phosphorous containing acids AG selected from the group consisting of orthophosphoric acid, pyrophosphoric acids, phosphorous acid, and the mono- and dialkyl esters of these, and also a method of use of such mixtures for coating of metal sheets, particularly interior coating of cans.
Type:
Application
Filed:
January 31, 2008
Publication date:
December 23, 2010
Inventors:
Edmund Urbano, Oliver Etz, Gerhard Brindoepke
Abstract: A sheet material includes a polycarbonate substrate and a protective coating containing the reaction products of an aminoplast resin, a polyol compound, and a UV-absorbing amount of a triazine compound. The sheet material exhibits an improved balance of abrasion resistance, solvent resistance, weatherability, and formability. Methods of preparing the sheet material are described.
Type:
Grant
Filed:
October 18, 2007
Date of Patent:
December 21, 2010
Assignee:
Sabic Innovative Plastics IP B.V.
Inventors:
James Edward Pickett, James Norman Cawse, Gert Boven, Gregory Ronald Gillette, Paul Sigston, Mao Chen, Gautam Ambalal Patel
Abstract: A disaster resistant data storage module is provided. In a preferred embodiment, the module is sized to fit into a standard drive bay inside the chassis of a personal computer or server. Standard sized hard drives may be utilized. For example a 2.5 inch standard hard drive may be placed in a protective enclosure which is in turn sized to fit in a standard 3.5 inch drive bay. Another aspect of the invention is to provide a highly reflective exterior surface or coating which reflects radiant energy from a fire but which simultaneously conducts heat generated by a data storage device carried within the module.
Abstract: A method for producing an organic thin film, which enables rapid film formation, and enables a dense organic thin film with minimal impurities to be formed stably, and in a plurality of consecutive repetitions. Also, a method for producing an organic thin film in which an organic thin film is formed on the surface of a substrate, including bringing the substrate into contact with an organic solvent solution containing a metal-based surfactant having at least one hydrolysable group, and a catalyst capable of interacting with the metal-based surfactant, wherein the water contact within the organic solvent solution is either set or maintained within a predetermined range.
Abstract: The present disclosure concerns a means to use light manipulation in engineered or structured coatings for thermal or photothermal effects and/or refractive and reflective index management. Such metallic, nonmetallic, organic or inorganic metamaterials or nanostructures could be used to manipulate light or energy for thermal or photothermal effects and/or refractive and reflective index management on or in any material or substrate on or in any material or substrate. The light scattering properties of metallic particles and film can be used to tune such coatings, structures or films over a broad spectrum.
Abstract: An immobilizing device for biological material comprises a rigid support (12) carrying a substrate layer (20, 20?) of polymer having biological immobilizing properties, e.g. for amino and nucleic acids. Substantially solid ultra-thin substrate layers (20?) having a thickness less than about 5 micron, preferably between about 0.1 and 0.5 micron, and microporous, ultra-thin substrate layers (20?) having a thickness less than about 5 micron, preferably less than 3 micron, 2 or 1 micron are shown, which may be segmented by isolating moats M. The substrate layer is on a microscope slide (302), round disc (122), bio-cassette, at the bottom of a well of a multiwell plate, and as a coating inside a tube. Fluorescence or luminescence intensity and geometric calibration spots (420) are shown. Reading is enhanced by the intensity calibration spots (420) to enable normalization of readings under uneven illumination conditions, as when reading by dark field, side illumination mode.
Type:
Application
Filed:
June 15, 2010
Publication date:
December 9, 2010
Applicant:
AVANTRA BIOSCIENCES CORPORATION
Inventors:
Jean I. Montagu, Roger Dowd, David Root
Abstract: A hydrophilic coating can be applied to virtually any surface to produce a long-lasting, durable antifog effect. The coating includes a molecular-level blend of hydrophilic polymers. The coating can be assembled using a layer-by-layer assembly process.
Type:
Application
Filed:
June 2, 2010
Publication date:
December 2, 2010
Applicant:
Massachusetts Institute of Technology
Inventors:
Nuerxiati Nueraji, Albert J. Swiston, Michael F. Rubner, Robert E. Cohen
Abstract: There are disclosed a platen roller capable of inhibiting drop of an adhesive force of a thermally active adhesive layer, which is seen in a case where recording and thermal activating are performed with respect to a thermally active adhesive sheet having the thermally active adhesive layer on a backside of a recording surface of a sheet-like substrate, a method of manufacturing the platen roller, and a recording device and a sticking label printer which are provided with the platen rollers. As the platen roller for conveying the thermally active adhesive sheet having the thermally active adhesive layer on the backside of the recording surface of the sheet-like substrate, a platen roller is used which is subjected to a contact treatment to bring the surface of a roller portion into contact with a compound (a) containable as a solid plasticizer in the thermally active adhesive layer.
Abstract: The present invention provides a process for treatment of a fabric comprising the steps of contacting the fabric with polymers A and B in an aqueous medium, wherein; (a) polymer A is selected from the class of homopolymers or copolymers of vinyl alcohol, alkylene glycol, saccharides, and carboxylic acid, and; (b) polymer B is selected from the class of homopolymers or copolymers of vinyl pyrrolidone, alkylene oxide, saccharides and carboxylic acid, and; where polymers A and B are not of the same class and the aqueous medium has pH less than 6. The invention also provides a composition and a kit for treatment of a fabric.
Abstract: This invention is directed to a process for the preparation of a crosslinker composition, comprising the steps of providing a mixture of an aliphatic alcohol A having at least one hydroxyl group and from 1 to 10 carbon atoms, with at least one multifunctional aldehyde C having at least two aldehyde groups —CHO to form a mixture AC, heating the mixture AC to convert at least a part of the multifunctional aldehyde C to its hemiacetal or to its acetal to form a mixture (AC)?, adding to the mixture (AC)? least one cyclic urea U or the educts to produce the said cyclic urea U in situ, which cyclic urea U has at least one unsubstituted >NH group, and reacting the mixture thus obtained to form a chemical bond between the nitrogen atom of the at least one unsubstituted >NH group of the at least one cyclic urea U5 and the carbon atom of the least one aldehyde group —CHO of the multifunctional aldehyde C, and coating compositions comprising the said crosslinker composition.
Abstract: A method for producing urea pellets having a narrow range of grain sizes and a sphericity >75% and a defined residual moisture ?0.5% is provided. The method provides urea pellets having the properties required which meet the requirements of the automotive industry for use thereof in reducing emissions from diesel engines. The method includes spraying a urea-containing liquid having a temperature between ambient temperature and above the melting point of the urea into the high particle density region of the spray zone of a near circular gas, material flow of a spouted bed apparatus and onto the particle surface of the material, which is dried and granulated in the gas flow at a temperature of not more than 130° C. at a controlled heat and mass transfer rate while being separated.
Type:
Grant
Filed:
August 1, 2006
Date of Patent:
November 23, 2010
Assignee:
Glatt Ingenieurtechnik GmbH
Inventors:
Karlheinz Rumpler, Bernhard Wand, Michael Jacob, Reinhard Bober, Reinhard Nowak
Abstract: Disclosed are new semiconductor materials prepared from perylene-imide copolymers. Such polymers can exhibit high n-type carrier mobility and/or good current modulation characteristics. In addition, the compounds of the present teachings can possess certain processing advantages such as solution-processability and/or good stability at ambient conditions.
Type:
Application
Filed:
February 5, 2009
Publication date:
November 11, 2010
Applicants:
BASF SE, POLYERA CORPORATION
Inventors:
Antonio Facchetti, He Yan, Zhihua Chen, Marcel Kastler, Florian Doetz
Abstract: A method for generating oxidic nanoparticles from a material forming oxide particles, comprising the steps of: preparation of an aqueous solution containing ions of the material forming the oxide particles, film evaporation of the solution at a temperature above 200° C., and skimming off the nanoparticles floating on the surface of the aqueous solution generated in the vicinity of the vapour film on film evaporation. A device for performing the method is also provided.
Type:
Application
Filed:
August 14, 2007
Publication date:
November 11, 2010
Applicant:
CHRISTIAN-ALBRECHTS-UNIVERSITAT ZU KIEL
Abstract: A surgical suture material with an antimicrobial surface is described, the surface exhibiting a coating containing a) at least one fatty acid, b) octenidine dichloride and/or dequalinium chloride and c) optionally oligomeric lactic acid esters. In addition, a process for coating surgical suture material is described which is characterized by the fact that the thread material is wetted with a homogeneous methanolic solution of octenidine dichloride and/or dequalinium chloride and subsequently the methanol is evaporated, a coating forming on the thread surface.
Type:
Grant
Filed:
October 24, 2007
Date of Patent:
November 9, 2010
Assignee:
Heraeus Kulzer GmbH
Inventors:
Sebastian Vogt, Klaus-Dieter Kuhn, Hubert Buchner
Abstract: A new method of making self-assembled nanoparticle wires involves: (1) at about ambient temperature and at or near atmospheric pressure, immersing a hydrophilic solid substrate at a non-horizontal angle (e.g.
Abstract: The invention provides a film comprising a polymer dispersed liquid crystal (PDLC) which exists independently from a substrate, i.e. a substrate-free PDLC; a fiber, a fabric, and a device thereof; and methods thereof. In an embodiment, a mixture comprising liquid crystal and monomers floats and is spread over a liquid base, before polymerization the mixture into a layer of polymer matrix dispersed with liquid crystal domains. The invention exhibits numerous technical merits such as improved transmittance, enhanced brightness, easier manufacturability, more flexible manufacturability, better cost-effectiveness, enhanced electro-optical performance, and improved device uniformity, among others.
Abstract: The present invention relates to a process for producing a composite material. A radiation-curable water-compatible composition is applied to the surface of a substrate having a high water content, wherein the composition comprises at least one radiation-polymerisable monomer and/or oligomer, whereby the composition wets the surface of the substrate. The composition on the substrate is then irradiated to produce the composite material. Optionally the monomer and/or oligomer is reacted with a phosphite or a triorganophosphine prior to the irradiation. These compositions may also be applied to low water content substrates.
Abstract: The mixture of the invention contains, for 100 parts in weight of (A)+(B): (A) 10 to 90 parts in weight of at least one non-nanostructured olefinic thermoplastic polymer; (B) 90 to 10 parts in weight of a formulation of at least one elastomer having unsaturated double bonds and capable of reacting with a cross-linking or vulcanization agent, said formulation containing a crosslinking or vulcanization system of said elastomer(s), at least one plasticizer, and the standard additives present in elastomer formulations; (C) up to 100 parts in weight, relative to (A)+(B), of at least one copolymer grafted with polyamide blocks, said copolymer comprising a polyolefin trunk and at least 1.
Abstract: One object of the present invention is to produce a weakly acidic cation exchanger under mild conditions. Another object of the present invention is to produce a more firm weakly acidic cation exchange film. Still another object of the present invention is to provide a weakly acidic cation exchanger capable of realizing high-level separation of monovalent cation and simultaneously analyzing monovalent cation and divalent cation and also provide a chromatography column using the ion exchanger. In the production method of a weakly acidic cation exchanger of the invention, a solvent incapable of dissolving a polymer having a double bond within the molecule is used and the weakly acidic cation exchanger is produced by polymerization at temperature of 100? ° C. or less. When an ?,?-unsaturated dibasic acid derivative is dissolved in the solvent, the ?,?-unsaturated dibasic acid derivative reacts with the polymer and a more firm film can be formed.
Abstract: Microbe-resistant medical devices and methods of making these medical devices are provided. A base coat is applied to at least a portion of a surface of the device. That base coat includes one or more types of antimicrobial particles that are held in the base coat. A polymeric over coat is applied over at least a portion of the base coat. The over coat may be an organic soluble polymer, a water soluble polymer, a hydrogel or any other polymer capable of being coated onto a medical device. The polymer of the over coat is dissolvable in a solvent that does not dissolve the polymeric base coat during application of the over coat. The over coat remains free of the antimicrobial particles by not dissolving the base coat during the over coating process.
Abstract: A flexible and substantially crack resistant intumescent, non-intumescent, or hybrid mounting mat material for use in mounting fragile structures includes at least one intumescent, non-intumescent or hybrid layer containing inorganic fibers and reinforcing layer applied to the layer. Also provided is an exhaust gas treatment device including a housing, a fragile catalyst support structure mounted within the housing, and the crack resistant mounting mat disposed in a gap between the housing and the fragile catalyst support structure. Also disclosed are methods of making a mounting mat for an exhaust gas treatment device and for making an exhaust gas treatment device incorporating the mounting mat.
Abstract: The present invention provides a dense-coverage, adherent phosphorous-based coating on the native oxide surface of a material. Disclosed phosphorous-based coatings include phosphate and organo-phosphonate coatings. The present invention also provides further derivatization of the phosphorous-based coatings to yield dense surface coverage of chemically reactive coatings and osteoblast adhesion-promoting and proliferation-promoting coatings on the native oxide surface of a titanium material.
Type:
Grant
Filed:
May 5, 2008
Date of Patent:
October 19, 2010
Assignee:
The Trustees of Princeton University
Inventors:
Jeffrey Schwartz, Michael J. Avaltroni, Kim S. Midwood, Jean E. Schwarzbauer, Ellen Gawalt
Abstract: A process for treatment of wood susceptible to damage and having a length that is over the critical length with a fluid under high pressure is disclosed. The process is conducted in a way so that the fluid is not allowed to enter into the liquid form inside the wood. In one embodiment the process is performed in a way so the temperature during the pressurizing is not allowed to exceed the plastification temperature of the wood. In this embodiment the rate of damages of the wood is even further reduced.
Type:
Grant
Filed:
May 8, 2003
Date of Patent:
October 5, 2010
Assignee:
VKR Holding A/S
Inventors:
Ole Henriksen, Tommy Larsen, Steen Brummersted Iversen, Karsten Felsvang
Abstract: A method for producing a preserved flower with its original natural flower color, particularly its original delicate color gradations, retained and a processing solution used in the method are provided. More specifically, the method for producing a preserved flower includes: immersing a fresh flower in a processing solution including a solution or dispersion containing one or two or more selected from a natural oil, natural resin, siloxane, synthetic resin, hydrated urethane, fatty acid ester, and surfactant; and drying the treated fresh flower.
Abstract: Disclosed herein is an article comprising an electrical component; and an electrically insulating layer disposed upon the electrical component, wherein the electrically insulating layer comprises a thermosetting polymer and a nanosized filler. Disclosed herein too is a method of manufacturing an article comprising disposing an electrically insulating layer upon an electrical component, wherein the electrically insulating layer comprises a thermosetting polymer and a nanosized filler; and curing the thermosetting polymer.
Type:
Grant
Filed:
December 29, 2003
Date of Patent:
September 28, 2010
Assignee:
General Electric Company
Inventors:
Patricia Chapman Irwin, Luana Emiliana Iorio, George Gao, Yang Cao
Abstract: An element forming an electronic component has a first face and a second face facing each other, and a third face adjacent to each of the first face and the second face. A method of forming an external electrode of the electronic component involves a pre-formation step, first to third formation steps, and an electrode formation step. The pre-formation step is to apply a conductive paste onto the third face and to evaporate at least a part of a liquid contained in the applied conductive paste, to form a precoat portion expected to become a part of a third electrode portion. The first formation step is to apply the conductive paste from a direction opposite to the first face, onto the first face to form a first electrode portion. The second formation step is to apply the conductive paste from a direction opposite to the second face, onto the second face to form a second electrode portion.
Type:
Grant
Filed:
December 11, 2006
Date of Patent:
September 28, 2010
Assignee:
TDK Corporation
Inventors:
Ko Onodera, Satoshi Kurimoto, Yoji Tozawa, Shirou Ootsuki
Abstract: A method for forming a film of graphite oxide single layers. In one embodiment, the method includes the steps of preparing a solution of graphite oxide to allow a plurality of graphite oxide single layers to be formed and dispersed in the solution; and applying the solution of graphite oxide onto an air-water interface of water to form a film at the air-water interface, wherein the film comprises a plurality of graphite oxide single layers and is characterized by a packing density, wherein the film of graphite oxide single layers is formed with no presence of a surfactant or stabilizing agent.
Type:
Application
Filed:
March 22, 2010
Publication date:
September 23, 2010
Applicant:
Northwestern University
Inventors:
Jiaxing Huang, Laura J. Cote, Franklin J. Kim
Abstract: The present invention provides a sealing material having excellent plasma resistance, sealing property and non-sticking property, parts for plasma treating equipment having the sealing material, and a process for preparing the sealing material. The sealing material comprises a fluoroelastomer sealing material and a coating film formed by using an inorganic material on the surface of the fluoroelastomer sealing material, wherein a ratio of weight reduction of the sealing material after dipping it in perfluoro tri-n-butylamine at 60° C. for 70 hours and then taking it out and drying it at 90° C. for 5 hours, at 125° C. for 5 hours, and then at 200° C. for 10 hours, is not more than 0.4% by weight.
Abstract: Novel formulated scents and methods to deliver such scents with or without scent strips and reed diffuser through natural airflow by directly applying formulated scents to the screen or by directly attaching such scent strips to anywhere people want or with the use of reed diffusers, without any scent delivery device.
Abstract: A melamine laminate article, having incorporated therein an isothjazolone antimicrobial agent, is formed by a high-pressure manufacturing process. The melamine resin is compounded with the antimicrobial as a finely divided powder diluted in a liquid forming a dispersion.
Type:
Application
Filed:
June 2, 2010
Publication date:
September 23, 2010
Applicant:
MICROBAN PRODUCTS COMPANY
Inventors:
William D. Hanrahan, Ivan W. Ong, Laurie W. Pariano
Abstract: Medical catheters are often coated, fully or partially. The present invention relates to systems and methods for coating some portion or all of a medical catheter or one or more of its components.
Type:
Grant
Filed:
October 13, 2006
Date of Patent:
September 21, 2010
Assignee:
Cordis Corporation
Inventors:
Ryan P. Merritt, Dina E. Agrapides, Vicente J. Fuillerat
Abstract: A powder coating composition for PC strand coating which, when used for the coating of a PC strand, can advantageously form a coating film having an even thickness at low cost without causing uneven thickness or stringness is disclosed. The powder coating composition of this invention for PC strand coating is characterized by having a melt viscosity of 3,000-15,000 poise.
Abstract: The invention addressed a difficult problem in the conventional methods and has its object to provide an organic thin film with flexibility and high strength to be a support for a molecule, with which a biomolecular element or a molecule such as a membrane protein as a biosensor can function equally in a living body, and a method for producing the same. In this invention, the organic thin film to be a support for the biomolecular element or the biosensor molecule is produced by forming a layer of lipid molecules on a layer of fatty acid molecules which is a primary thin film layer formed on an inorganic substrate. Further, by the selection and combination of fatty acid molecules, a thin film structure with a characteristic pattern structure can be obtained.
Type:
Application
Filed:
November 24, 2006
Publication date:
September 16, 2010
Applicant:
NATIONAL UNIVERSITY CORPORATION AKITA UNIVERSITY
Abstract: A composition comprising a copolymer having repeating units in any sequence of Formula I wherein Rf is a straight or branched perfluoroalkyl group having from about 1 to about 20 carbon atoms, or a mixture thereof, which is optionally interrupted by at least one oxygen atom, X3 is oxygen or X1, each X1 is independently an organic divalent linking group having from about 1 to about 20 carbon atoms, optionally containing an oxygen, nitrogen, or sulfur, or a combination thereof, G is F or CF3, A is an amide, j is zero or positive integer, X2 is an organic linking group, Y is O, N or S, h is zero when Y is N, and h is one when Y is O or S, Z is H, a straight or branched alkyl group having from about 1 to about 4 carbon atoms, or halide, B is H or wherein Rf, X1, X3, G, A, and j are as defined above, provided that when B is H, j is a positive integer, m is a positive integer, q is zero or a positive integer when Y is O, and q is a positive integer when Y is N or S, p is zero or a positive integer
Abstract: A method for manufacturing of a plastic container which is substantially impervious to oxygen by providing a bottom film oxygen barrier, the film oxygen barrier having an area greater than the area of a floor of the plastic container; providing a side oxygen barrier film, the side oxygen barrier film being dimensioned to circumscribe a sidewall of the plastic container and having a length greater than the length of the plastic container. A mold has a floor and a sidewall, the mold having a groove extending below the floor and dimensioned to receive an excess length of the side oxygen barrier film therein, and the bottom oxygen barrier film being dimensioned to extend at least partially across said groove. The film oxygen barriers are placed within the mold and a plastic container is injection molded within the cavity. An oxygen resistant container has a floor. A sidewall extends from the floor. An oxygen barrier material is disposed on the floor and sidewall.
Type:
Application
Filed:
March 4, 2010
Publication date:
September 9, 2010
Applicant:
IPL, Inc.
Inventors:
Rodrick Levesque, Michel Fillion, Stephane Mercier
Abstract: The invention relates to a method for the uniform application of a coating of reactive coating materials, preferably polyurethane components, to tubular walls (20), and also relates to a coating device and a composite tube produced by means thereof. In order to apply a uniform coating thickness, it is proposed according to the invention that the tubular wall (20) is supplied continuously into a coating device (1) in which coating materials are supplied to at least one distributing duct which opens towards the tubular wall (20) and merges in the direction of transport into a coating duct (14), wherein the coating materials flow into the distributing duct (12) without a dead volume and pass from there to the surface of the tubular wall (20) and are held in a tightly restricted space until solidification.
Abstract: A multilayer film formed by a solution process. The multilayer film includes a plurality of basic film structures positioned in contiguous overlying relationship to form a common multilayer film. Each of the plurality of basic film structures includes one of: a first two-layer structure with a first layer including either a polymer material or an organic material and a second layer including a functionalized inorganic material; a second two-layer structure with a first layer including either a polymer material or an organic material and a second layer including either a polymer binder and/or an organic binder; and a three layer structure with a first layer including either a polymer material or an organic material, a second layer including a functionalized inorganic material, and a third layer including one of a polymer binder and/or an organic binder.
Abstract: Provided is a coated nonwoven mat prepared by the process of passing a nonwoven mat over the surface of a binder or coating slurry to touch the bottom side of the mat sufficiently to fully wet the glass mat. The wetted nonwoven mat is then immersed in a slurry of the binder or coating material to fully saturate the mat with the slurry material. The process of the present invention allows one to control the porosity of the saturated fibrous nonwoven mat at high consistency with reduced scrap rate. The saturated mat will have improved tensile strength.
Abstract: This disclosure relates generally to polymeric networks of fullerene compounds, to methods of preparing precursors for such networks, and to their subsequent use as low dielectric constant materials in microelectronic devices.
Abstract: A process for producing a fuser member coating including a) adding and reacting a fluoroelastomer, a crosslinking agent, a polar solvent, and a fluorinated copolymer surfactant to form a coating solution, and b) providing said coating solution on said fuser member to form a fuser member coating, wherein said fluorinated copolymer surfactant comprises a fluorinated polyether copolymer comprising pendant trifluoroethoxy groups.
Type:
Application
Filed:
May 11, 2010
Publication date:
September 2, 2010
Applicant:
XEROX CORPORATION
Inventors:
Samuel Kaplan, Alexander N. Klymachyov, Robert N. Finsterwalder, Kenneth W. Schlafer, Jarad N. Kohl, Joy L. Longhenry, Alan R. Kuntz
Abstract: Water soluble, gelatin-free dip coatings for pharmaceutical solid dosage forms such as tablets comprising HPMC and xanthan gum, carrageenan, and mixtures thereof, or HPMC and castor oil or maltodextrin.
Type:
Grant
Filed:
June 27, 2007
Date of Patent:
August 31, 2010
Assignee:
McNeil-PPC, Inc.
Inventors:
Cynthia Gulian, Walter G. Gowan, Jr., Kishor B. Parekh, Joseph M. Morris, Thomas J. Markley, Dennis C. Wieand, Gerard P. McNally, Christopher Szymczak
Abstract: An adherent bioactive calcium phosphate coating is formed on a titanium or titanium alloy substrate by immersing the substrate in an acidic calcium phosphate solution to form a non-apatitic calcium phosphate coating on the substrate. In a second step the coated substrate can be converted to a less reactive coating by being immersed into a basic or neutral solution to convert the coating into an apatite. However if a relatively reactive coating is desired, the second step can be dispensed with.
Abstract: A ITO layer structure, which is composed of the ITO as the outermost layer and the first anti-reflected layer on the specific side of the transparent substrate, furthermore, the second anti-reflected layer is formed on the opposite side of substrate, can improve the total transmittance.
Abstract: Devices are provided which are functionalized to include surface regions having anti-infective agents. Methods are provided for functionalizing various material surfaces to include active surface regions for binding anti-infective agents. Methods are provided by which anti-infective moieties or agents are bonded to functionalized surfaces.
Abstract: A refractory composition for use in contact with molten aluminum and molten aluminum alloys containing a refractory aggregate, a binder, and a treatment additive comprising a source of Sr. Methods comprising contacting a refractory composition with the Sr source to improve the resistance of the refractory to molten aluminum attack are also disclosed. Preferred treatment agents comprise Sr nitrate, Sr carbonate, Sr sulfate and Sr oxide.
Abstract: An object of the present invention is to provide a method for producing an organic thin film, which enables rapid film formation, and enables a dense organic thin film with minimal impurities to be formed stably, and in a plurality of consecutive repetitions. The present invention provides a method for producing an organic thin film in which an organic thin film is formed on the surface of a substrate, including a step (A) of bringing the substrate into contact with an organic solvent solution containing a metal-based surfactant having at least one hydrolyzable group, and a catalyst capable of interacting with the metal-based surfactant, wherein the water content within the organic solvent solution is either set or maintained within a predetermined range.
Abstract: An evaporation-induced self-assembly method to prepare a porous, surfactant-templated, thin film by mixing a silica sol, a solvent, a surfactant, and an interstitial compound, evaporating a portion of the solvent to form a liquid, crystalline thin film mesophase material, and then removal of the surfactant template. Coating onto a substrate produces a thin film with the interstitial compound either covalently bonded to the internal surfaces of the ordered or disordered mesostructure framework or physically entrapped within the ordered or disordered mesostructured framework. Particles can be formed by aerosol processing or spray drying rather than coating onto a substrate. The selection of the interstitial compound provides a means for developing thin films for applications including membranes, sensors, low dielectric constant films, photonic materials and optical hosts.
Type:
Grant
Filed:
September 23, 2003
Date of Patent:
August 31, 2010
Assignee:
Sandia Corporation
Inventors:
C. Jeffrey Brinker, Yunfeng Lu, Hong You Fan