| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 106287130 | C bonded directly to Si atom | 42 |
| 20080210129 | Composition Containing Organopolysiloxanes, Method for the Production thereof and Use of the Same - Aqueous compositions comprising peroxides and polyorganopolysiloxanes useful for cleaning and disinfecting substrate surfaces. | 09-04-2008 |
| 20080210130 | Storage-Stable Coating Composition for Abrasion-Resistantly and Weathering-Stably Providing Smooth Inorganic Surfaces with Easy-To-Clean Properties - The present invention relates to a special coating composition based on components a) at least one hydrolysable fluoroalkylsilane of the formula (I) CF | 09-04-2008 |
| 20080257214 | Compositions Exhibiting Good Mixing Properties and Use of Silyl Derivatives as Isocyanate Additives, in Particular of Isocyanate Mixture - The invention concerns isocyanate compositions exhibiting good mixing properties. The compositions comprise for successive or simultaneous addition: an isocyanate sub-composition comprising by weight not more than 5% of diisocyanate monomers and monomers derived from amino acids and comprising an isocyanate function content not more than 55%; a compound selected among the compounds bearing dihydrocarbylsilylene groups bonded to a metalloid of the chalcogen column or to an atom of the nitrogen column, the content in such groups being not less than 0.1 wt. % expressed in silicon atom weight relative to the amount of monomers corresponding to units derived therefrom. The invention is applicable to the coatings industry, in particular paints and adhesives. | 10-23-2008 |
| 20090000518 | Aqueous Aluminosilicate Gel-Forming Composition - An aqueous gel-forming composition, e.g. a fire retardant coating composition, comprises an aluminosilicate and an organic liquid having a boiling point greater than 110° C., e.g. silicone oil, which enhances the integrity of films formed by application of the composition as a coating to a surface then followed by drying. | 01-01-2009 |
| 20090139434 | AQUEOUS DISPERSIONS OF ORGANOSILICON COMPOUNDS - Aqueous dispersions of organosilicon compounds contain:
| 06-04-2009 |
| 20090178589 | Fine inorganic oxide dispersion, coating composition, optical film, antireflection film, polarizing plate and image display device - An inorganic oxide dispersion containing an organic solvent, and inorganic oxide particles surface-treated with at least one of a hydrolyzate and a partial condensate of an organosilane compound represented by formula (I), the inorganic oxide particles being dispersed in the organic solvent: (R | 07-16-2009 |
| 20090283014 | Coating System - The invention provides a coating system, particularly for coating concrete, concrete-like, mineral and/or ceramic substrates. The coating system comprises a binder consisting at least in part of an inorganic phosphatic binder, and fillers. The fillers include nano-scale particles having an average particle diameter d50 of less than 300 nm. | 11-19-2009 |
| 20100006006 | Water-Soluble Silicates and Use Thereof - Modified silicates are described which are obtained by reacting a waterglass solution with alkylsilanes of the general formula R—(CH | 01-14-2010 |
| 20100024685 | FLUORINE-CONTAINING ACRYLATE - [SUBJECT] The purpose of the present invention is to provide a photo curable fluorine compound which has good compatibility with non-fluorine organic compounds, maintaining good properties as a fluorine compound.
| 02-04-2010 |
| 20100058955 | Hard Coat Layer-Forming Composition and Optical Lens - The hard coat layer-forming composition of this invention includes (A) composite oxide fine particles with a mean particle diameter of 1 to 200 nm, containing titanium, tin and optionally silicon, and with a rutile-type crystal structure, (B) an organosilicon compound represented by the formula R | 03-11-2010 |
| 20100263574 | HYDROPHOBICIZATION OF SILICAS UNDER OXIDIZING CONDITIONS - Modified silicas having low silanol content which are compatible with polar compositions are prepared by modifying silica with a difunctional reactive organosilane or polydialkylsiloxane under oxidizing conditions below 400° C. The silicas have a distinct proportion of T | 10-21-2010 |
| 20110011308 | HYDROLYSIS RESISTANT ORGANOMODIFIED DISILOXANE IONIC SURFACTANTS - An asymmetric organomodified disiloxane surfactant having the formula: MM′ wherein M comprises branched hydrocarbon substituents and M′ comprises a cationic, anionic or zwitterionic substituent and a polyether substituent that may be combined as one moiety, wherein the disiloxane surfactant has an enhanced resistance to hydrolysis between a pH of about 3 to about 12. | 01-20-2011 |
| 20110048282 | HYBRID NANOPARTICLES WITH CONTROLLED MORPHOLOGY AND THEIR USE IN THERMOPLASTIC POLYMER MATRIX NANOCOMPOSITES - Nanoparticles with controlled and highly monodispersed morphology made using a modified Stöber sol-gel process. The hybrid silica nanoparticles with controlled morphology having uniform size, shape or both, and contain an aliphatic amine of 2-20 carbon atom, or an alkoxide compound selected from the group consisting of siliceous alkoxide (R′ | 03-03-2011 |
| 20110061568 | ALKYL SILICATE PAINT COMPOSITIONS WITH IMPROVED CRACKING RESISTANCE - The present application discloses an acidic-stabilised alkyl silicate composition comprising 0.5-30% by solids volume of inorganic fibres, wherein the fibres have (i) an average length of 25-250 μm and an average thickness of 1-50 μm, and a ratio between the average length and the average thickness (aspect ratio) of at least 5; and (ii) a specific surface area (BET) of 0.01-6 m | 03-17-2011 |
| 20110259241 | Non-Curable Coating Composition - A non-curable coating composition which uses a modified silicone having a functional group and can effectively prevent or reduce adhesion of sticky contamination substances to the surface of a substrate is provided. The non-curable coating composition contains a carboxy-modified silicone having carboxy-containing groups at side chains, and an epoxy/oxyalkylene-modified silicone having an epoxy-containing group and an oxyethylene-containing group at side chains, in a weight ratio ranging from 1:2 to 1:30. | 10-27-2011 |
| 20110303120 | ELECTRON BEAM CURED SILICONE RELEASE MATERIALS - Methods of electron beam curing nonfunctional polysiloxanes and silanol terminated polysiloxanes are described. The resulting release materials are also described. | 12-15-2011 |
| 20120132109 | PAINTABLE DIFFUSING AGENT COMPOSITION - A diffusing agent composition of an aspect of the invention contains: a condensation product (A) made from a starting material that is an alkoxysilane represented by the following general formula (1): | 05-31-2012 |
| 20150122149 | METHOD FOR PRODUCING A POLYSILANE, POLYSILANE, AND SILICON CARBIDE PRODUCED THEREFROM - A method for producing a polysilane includes a step of reacting (i) at least two silane monomers and (ii) at least one alkali metal. The silane monomers contain the following structural units: at least one aryl group, at least one alkyl group, at least one alkenyl group, and at least three halogen atoms. At least three of the halogen atoms are bonded to a silicon atom of one of the silane monomers. | 05-07-2015 |
| 106287140 | H or alkyl directly bonded to Si | 22 |
| 20080276836 | Composition containing anti-misting component of reduced molecular weight and viscosity - The invention relates to compositions comprising (I) a silicone-based coating component susceptible to misting under mist-producing conditions; and (II) an anti-misting amount of at least one branched polysiloxane of reduced molecular weight and viscosity. The invention also relates to a process for coating a substrate with the above coating formulation, as well as hardened silicone-based coatings or films produced by subjecting the coated substrate to one or more curing steps. | 11-13-2008 |
| 20090025610 | ORGANIC/INORGANIC COMPOSITE - An organic/inorganic composite including a condensation product of an organic silicon compound represented by formula (I) as a major component; at least one kind of a photosensitive compound which is sensitive to light having a wavelength of 350 nm or less selected from the group consisting of metal chelate compounds, compounds of metal organic acid salts, metal compounds having 2 or more hydroxyl or hydrolyzable groups, hydrolyzates thereof, and condensation products thereof; and/or a compound derived from the photosensitive compound; | 01-29-2009 |
| 20100064939 | SILOXANE BASED COATING COMPOSITION HAVING EXCELLENT DYEABILILTY ABRASION RESISTANCE, GLOSSINESS AND TRANSPARENCY,AND A PREPARATION METHOD THEREOF, AND AN OPTICAL LENZ COATED BY SAID COATING COMPOSITION - A siloxane based coating composition having excellent dyeability, abrasion resistance, glossiness and transparency, a preparation method thereof, and an optical lens coated by the coating composition are suggested. The siloxane based coating composition includes organo silane compound, inorganic oxide (H-index filler), solvent and a dyeing improving material. The dyeing improving material adopts nitric acid, hydrochloric acid, phosphoric acid, sodium nitrate, potassium nitrate, silver nitrate, or the like. The siloxane based coating composition shows excellent dyeability owing to the dyeing improving material, excellent abrasion resistance owing to the organo silane compound, and excellent glossiness and transparency, so it may be applied as a coating film on a surface of a plastic lens such as optical lens, industrial safety lens and leisure-purpose goggle that require high transparency. | 03-18-2010 |
| 20100147192 | METHOD OF MAKING COMPOSITE COATING AND PRODUCT FORMED WITH THE COMPOSITE COATING - A method of making a composite coating includes the steps of: adding a proper quantity of inorganic metal salt into an organic dissolvent to form a first mixed solution and then stirring the first mixed solution for 30-60 minutes; adding a proper quantity of SiO | 06-17-2010 |
| 20110132229 | Coating composition and process for preparing it - The invention relates to an acid-free coating composition comprising one or more fluoroalkylsilane compounds, volatile substance, salt and water, a process for preparing it and its use. Applied to a substrate, the coating composition provides an easy-to-clean and dirt-repellent surface. | 06-09-2011 |
| 20110185947 | POLYHYDROXYFUNCTIONAL POLYSILOXANE AS ANTI-ADHESIVE AND DIRT-REPELLANT ADDITIVES IN COATINGS POLYMERIC MOULDED MASSES AND THERMOPLASTICS, METHOD FOR PRODUCTION AND USE THEREOF - The invention relates to a method for production of polyhydroxyfunctional polysiloxanes with branched polyglycidol polyether groups, in which firstly at least one allylic or methallylic starting material is reacted with at least one glycidol, such that an allyl polyether or methallyl polyether is formed, and then the allyl polyether or methallyl polyether thus produced is added to a Si—H functional alkyl polysiloxane in the presence of an acid buffering agent. The invention further relates to polysiloxanes, which may be obtained by said method and the use of the polysiloxanes in coating agents, polymeric coating masses and thermoplastics. | 08-04-2011 |
| 20120145037 | Hybrid Vehicle Systems - A hybrid film-forming composition is prepared by forming an aqueous mixture including an organofunctional silane, a metal chloride, and an acid, and boiling the mixture. A base is added to the aqueous mixture to substantially neutralize the mixture and to form a hydroxide of the metal. A colloidal suspension including the metal hydroxide and a siloxy compound is formed. A peroxide-based solution is added to the suspension to form a suspension including a peroxide of the metal. The suspension is allowed to equilibrate at room temperature. The suspension is boiled at a pressure greater than atmospheric pressure to form a hybrid film-forming composition including the condensation product of a siloxy compound and a metal peroxide. A coating formed from the hybrid film-forming composition may be hydrophobic or hydrophilic. | 06-14-2012 |
| 20120174823 | COMPOSITION FOR COATING FILM TO PREVENT CONSPICUOUS FINGERPRINTS, COATING FILM TO PREVENT CONSPICUOUS FINGERPRINTS USING THE COMPOSITION, AND ARTICLE HAVING THE COATING FILM - A coating film to prevent a conspicuous fingerprint has a water contact angle of no less than 60° so that most of water contained in fingerprints on the coating film evaporates without forming a layer adsorbed on the coating film. Further, the coating film has lipophilicity and has a diiodomethane contact angle of no more than 45° so that the coating film exhibits enhanced affinity to fingerprints, which primarily contain oily components. | 07-12-2012 |
| 20120192762 | METHOD FOR PRODUCING FINE MESOPOROUS SILICA PARTICLES, FINE MESOPOROUS SILICA PARTICLES, LIQUID DISPERSION OF FINE MESOPOROUS SILICA PARTICLES, COMPOSITION CONTAINING FINE MESOPOROUS SILICA PARTICLES AND MOLDED ARTICLE CONTAINING FINE MESOPOROUS SILICA PARTICLES - Fine mesoporous silica particles are provided by which not only the functions of low reflectance (Low-n), low dielectric constant (Low-k) and low thermal conductivity but also improved strength of a molded article are achieved. The fine mesoporous silica particles are manufactured by a process including a surfactant composite fine silica particle preparation step and a mesoporous particle formation step. In the silica fine particle preparation step, a surfactant, water, an alkali and a hydrophobic part-containing additive including a hydrophobic part for increasing the volume of micelles are mixed with a silica source to thereby prepare surfactant composite fine silica particles. In the mesoporous particle formation step, the mixture is mixed with an acid and an organosilicon compound to thereby remove the surfactant and hydrophobic part-containing additive from the surfactant composite fine silica particles and provide the surface of each silica fine particle with an organic functional group. The fine mesoporous silica particles have mesopores inside each particle, and are modified on the surface with organic functional groups. | 08-02-2012 |
| 20130000517 | Glazing Panel Conditioning - A conditioning agent (typically for use in repairing a flaw in a glazing panel) is contained in a sealed container which is itself disposed internally of a flexible outer walled container. Pressure applied to the outer flexible walled container can cause release of the conditioning agent from the internal conditioning agent container. The conditioning agent preparation may comprise a hygroscopic solvent (such as acetone) combined with one or more primer additives to prime the surface of the glazing panel for repair. | 01-03-2013 |
| 20130042790 | VAPOR DEPOSITION METHODS OF SiCOH LOW-K FILMS - Disclosed are precursors that are adapted to deposit SiCOH films with dielectric constant and Young's Modulus suitable for future generation dielectric films. | 02-21-2013 |
| 20130125787 | PLANARIZATION OVER TOPOGRAPHY WITH MOLECULAR GLASS MATERIALS - Molecular glass based planarizing compositions for lithographic processing are disclosed. The processes generally include casting the planarizing composition onto a surface comprised of lithographic features, the planarizing composition comprising at least one molecular glass and at least one solvent; and heating the planarizing composition to a temperature greater than a glass transition temperature of the at least one molecular glass. Exemplary molecular glasses include polyhedral oligomeric silsesquioxane derivatives, calixarenes, cyclodextrin derivatives, and other non-polymeric large molecules. | 05-23-2013 |
| 20130213264 | METHOD OF PRODUCING HYDRATED LIME - A method of producing a hydrated lime. The process hydrates quicklime in conjunction with standard means of hydrating lime. The resulting hydrated lime has highly reduced contents of calcium oxide and magnesium oxide. The hydrated lime has little to no remaining reactivity when placed in contact with water after the process. The hydrated lime can is with stoichiometric volumes of water as required to fully hydrate the quicklime and water mixture as well as with volumes beyond the calculated stoichiometry with some potential for remaining water left after the process without the potential for lime putty or a wet hydrate as the result. | 08-22-2013 |
| 20130220176 | PROCESS FOR PRODUCING ORGANIC THIN FILM LAMINATE USING SOLID OR OILY MATERIAL FOR ORGANIC THIN FILM FORMATION APPLICATIONS - A solid material or an oily material for forming an organic thin film is produced by hydrolyzing and condensing at least one kind of organic metal compound expressed by Formula (1) in a lower alcohol-based solvent in the presence of water and an acid with a concentration of 0.5% to 5% by mass in the resultant reaction solution. The solid material or oily material that is obtained is dissolved in an organic solvent, and a substrate is brought into contact with a solution that is obtained to form a highly functional organic thin film on the substrate. | 08-29-2013 |
| 20130220177 | SURFACE TREATMENT PROCESS, COMPOSITION FOR USE THEREIN, AND TREATED ARTICLE - A surface treatment process comprises (a) providing at least one substrate; (b) providing a curable surface treatment composition comprising (1) at least one fluorinated organosilane compound comprising (i) a monovalent segment selected from polyfluoroalkyl, polyfluoroether, polyfluoropolyether, and combinations thereof and (ii) a monovalent endgroup comprising at least one silyl moiety comprising at least one group selected from hydrolyzable groups, hydroxyl, and combinations thereof, and (2) at least one organosilane compound comprising (i) a multivalent non-fluorinated segment and (ii) at least two monovalent endgroups, each monovalent endgroup independently comprising at least one silyl moiety comprising at least one group selected from hydroxyl, hydrolyzable groups, and combinations thereof, and/or at least one organosilazane compound; (c) applying the curable surface treatment composition to the substrate; and (d) curing the applied, curable surface treatment composition. | 08-29-2013 |
| 20130228100 | Surface Treatment Composition, Method Of Producing The Surface Treatment Composition, And Surface-Treated Article - A surface treatment composition comprises a polyfluoropolyether silane. The polyfluoropolyether silane and the surface treatment composition are produced by reacting a perfluoropolyether-containing compound and a hydrosilane in the pres-ence of a hydrosilylation catalyst and an isomer reducing agent. | 09-05-2013 |
| 20130327252 | LOW REFRACTIVE INDEX FILM-FORMING COMPOSITION AND METHOD OF FORMING LOW REFRACTIVE INDEX FILM USING THE SAME - A low refractive index film-forming composition and a low refractive index film are prepared with a method in which fluoroalkyl group-containing silicon alkoxide (B) is mixed with silicon alkoxide (A) to obtain a mixture; water (C), formic acid (D), and an organic solvent (E) are mixed with the mixture to produce a hydrolysate of the mixture; and silica sol (F) obtained by dispersing beaded colloidal silica particles in a liquid medium is mixed with the hydrolysate. | 12-12-2013 |
| 20140020600 | AQUEOUS DISPERSIONS OF ORGANOSILICON COMPOUNDS - Stable aqueous organosilicon dispersions particularly useful for the hydrophobing of construction materials are prepared by first preparing a homogenous mixture of organopolysiloxanes and hydrophobic silica filler, and dispersing this mixture together with an alkylalkoxysilane bearing at least one C | 01-23-2014 |
| 20140182483 | Titanium Containing Hydrosilylation Catalysts And Compositions Containing The Catalysts - A composition contains (A) a hydrosilylation reaction catalyst and (B) an aliphatically unsaturated compound having an average, per molecule, of one or more aliphatically unsaturated organic groups capable of undergoing hydrosilylation reaction. The composition is capable of reacting via hydrosilylation reaction to form a reaction product, such as a silane, a gum, a gel, a rubber, or a resin. Ingredient (A) contains a metal-ligand complex that can be prepared by a method including reacting a metal precursor and a ligand. | 07-03-2014 |
| 20140208982 | TRANSPARENT INORGANIC-ORGANIC HYBRID MATERIALS VIA AQUEOUS SOL-GEL PROCESSING - A sol to form an inorganic-organic hybrid coating having a thick highly transparent hard coating is described. The hybrid coating is formed from a combined aqueous sol with least one hydrolyzable silane and at least one hydrolyzable metal oxide precursor where the only organic solvents present are those liberated upon hydrolysis of the silanes and metal oxide precursors. In one embodiment an inorganic-organic hybrid coating is formed by combination of a sol, prepared by the hydrolysis of tetraethoxysilane and γ-glycidoxypropyltrimethoxysilane with an excess of water, and a sol, prepared by the hydrolysis of titanium tetrabutoxide and γ-glycidoxypropyltrimethoxysilane with a deficiency of water. A plastic substrate can be coated with the combined sol and the combined sol gelled to a thickness of at least 5 μm with heating to less than 150° C. | 07-31-2014 |
| 20150353744 | Method Of Forming A Hydrolysis Resistant Aqueous Emulsion - A hydrolysis resistant aqueous emulsion includes a hydrolyzable silicon containing compound. This emulsion is formed by a method that includes the step of (A) forming a seed emulsion that includes (1) an emulsifier, (2) water, and (3) a first oil phase. The method also includes the step of (B) adding a second oil phase, including a hydrolyzable silicon containing compound, to the seed emulsion. A weight ratio of the second oil phase including the hydrolyzable silicon containing compound to the first oil phase in the seed emulsion is from 0.5 to 50. Moreover, a total weight of the first and second oil phases in the emulsion is at least 60 weight percent. | 12-10-2015 |
| 20160122551 | COMPOSITIONS OF COATED DIAMOND NANOPARTICLES, METHODS OF FORMING COATED DIAMOND NANOPARTICLES, AND METHODS OF FORMING COATINGS - In a composition including a plurality of coated diamond nanoparticles, each diamond nanoparticle may have at least one silane functional group covalently bonded to a surface thereof. A method of forming coated diamond nanoparticles may include functionalizing surfaces of diamond nanoparticles with at least one of a fluorine-containing compound and an oxidant; dispersing the functionalized diamond nanoparticles in a solvent comprising a silane functional group; and forming covalent bonds between the silane functional group and the diamond nanoparticles. A method of forming a diamond coating may include depositing the diamond nanoparticles over a substrate. | 05-05-2016 |
| 106287150 | C radical bonded to Si is unsaturated | 2 |
| 20100139526 | SEMICONDUCTOR DEVICE INCLUDING A COUPLED DIELECTRIC LAYER AND METAL LAYER, METHOD OF FABRICATION THEREOR, AND MATERIAL FOR COUPLING A DIELECTRIC LAYER AND A METAL LAYER IN A SEMICONDUCTOR DEVICE - A passivating coupling material for, on the one hand, passivating a dielectric layer in a semiconductor device, and on the other hand, for permitting or at least promoting liquid phase metal deposition thereon in a subsequent process step. In a particular example, the dielectric layer may be a porous material having a desirably decreased dielectric constant k, and the passivating coupling material provides steric shielding groups that substantially block the adsorption and uptake of ambient moisture into the porous dielectric layer. The passivating coupling materials also provides metal nucleation sides for promoting the deposition of a metal thereon in liquid phase, in comparison with metal deposition without the presence of the passivating coupling material. The use of a liquid phase metal deposition process facilitates the subsequent manufacture of the semiconductor device. In one example, the passivating coupling material has multiple Si atoms in its chemical composition, which desirably increases the thermal stability of the material. | 06-10-2010 |
| 20130192491 | MODIFIED POLYHEDRAL POLYSILOXANE, COMPOSITION CONTAINING THE MODIFIED POLYHEDRAL POLYSILOXANE, AND CURED PRODUCT OBTAINED BY CURING THE COMPOSITION - A modified polyhedral polysiloxane obtained by hydrosilylation of an alkenyl group-containing polyhedral polysiloxane compound (a), a hydrosilyl group-containing compound (b), and a cyclic olefin compound (c) having one carbon-carbon double bond in its molecule. | 08-01-2013 |
