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1642 results about "Mesoporous material" patented technology
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A mesoporous material is a material containing pores with diameters between 2 and 50 nm, according to IUPAC nomenclature. For comparison, IUPAC defines microporous material as a material having pores smaller than 2 nm in diameter and macroporous material as a material having pores larger than 50 nm in diameter.
Method and Apparatus For Removal Of Oil From Utility Gas Stream
The present application is directed to a method and system for preparing gaseous utility streams from gaseous process streams, particularly, removing oil contamination from such streams prior to use in a dry gas seal. The methods and systems may include at least one kinetic swing adsorption process including pressure swing adsorption, temperature swing adsorption, calcination, and inert purge processes to treat gaseous streams for use in dry gas seals of rotating equipment such as compressors, turbines and pumps and other utilities. The adsorbent materials used include a high surface area solid structured microporous and mesoporous materials.
Owner:EXXONMOBIL UPSTREAM RES CO
Mesoporous spherical alumina prepared by guiding of template and preparation method thereof
The invention provides mesoporous spherical alumina and a method for preparing the mesoporous spherical alumina by guiding of a template. By the adoption of an oil column forming method, the template with a guiding function is added into aluminum sol during the aluminum sol preparation process; and during the forming and aging processes of the aluminum sol, due to the existence of the template with the guiding function, a large number of meso-structures are prepared in alumina balls. The mesoporous spherical alumina has the following characteristics of: its specific surface is 150-300 m<2> / g; particle diameter is 0.1-5 mm; pore volume is 0.7-1.5 ml / g; holes, hole diameter of which is 2-40 nm, are greater than 97%; bulk density is 0.30-0.80g / cm<3>; and crushing strength is 70-250 N / granule. The mesoporous spherical alumina can be used as a catalyst or a catalyst carrier in the petrochemical industry and the industry of fine chemicals.
Owner:BEIJING UNIV OF CHEM TECH
Preparation of surface functionalized porous organic-inorganic hybrid materials or mesoporous materials with coordinatively unsaturated metal sites and catalytic applications thereof
ActiveUS20100273642A1Improve adhesionHigh catalytic activityMaterial nanotechnologyOrganic-compounds/hydrides/coordination-complexes catalystsSorbentHybrid material
Disclosed herein is a method of surface-functionalizing a porous organic-inorganic hybrid material or a organic-inorganic mesoporous material, in which organic substances, inorganic substances, ionic liquids and organic-inorganic hybrid substances are selectively functionalized on the coordinatively unsaturated metal sites of a porous organic-inorganic hybrid material or organic-inorganic mesoporous material, and thus the porous organic-inorganic hybrid material can be used for adsorbents, gas storage devices, sensors, membranes, functional thin films, catalysts, catalytic supports, and the like, and the applications of the surface-functionalized porous organic-inorganic hybrid material prepared using the method to catalytic reactions.
Owner:KOREA RES INST OF CHEM TECH
Hydrogenation of benzene polycarboxylic acids or derivatives thereof
A process for hydrogenating benzenepolycarboxylic acids or derivatives thereof, such as esters and / or anhydrides, by bringing one or more benzenepolycarboxylic acids or one or more derivatives thereof into contact with a hydrogen-containing gas in the presence of one or more catalytically active metal, such as platinum, palladium, ruthenium or mixtures thereof, deposited on a catalyst support comprising one or more ordered mesoporous materials.
Owner:EXXONMOBIL CHEM PAT INC
Block copolymer processing for mesostructured inorganic oxide materials
InactiveUS7176245B2High BET surface areaIncrease surface areaMolecular-sieve and base-exchange compoundsCation exchangersMesoporous materialCopolymer
Owner:SBA MATERIALS
Compositions and methods for making stabilized mesoporous materials
InactiveUS20110171121A1Aluminium compoundsFaujasite aluminosilicate zeoliteMesoporous materialAmmonia
Compositions and methods for making stabilized mesoporous materials. Surfactant-treated mesoporous precursor materials can be heat-treated in the presence of steam and / or ammonia in a heat-treating environment. The steam and / or ammonia can be introduced into the heat-treating environment via in situ and / or ex situ sources. Such stabilized mesoporous materials can have increased structural stability.
Owner:RIVE TECH
Materials, methods and systems for selective capture of CO2 at high pressure
ActiveUS8361200B2Lower energy requirementsIncrease volumeGas treatmentMethane captureMesoporous materialHigh pressure
Owner:SAYARI ABDELHAMID
Mesostructured material incorporating particles of nanometric dimensions
InactiveUS6866925B1High crystallinityNanostructure manufactureSilicaMesoporous materialCrystallinity
The invention concerns a heat-stable ordered mesoporous or mesostructured material comprising a mineral phase wherein are dispersed particles of nanometric dimension at least partly crystaline, the global crystallinity index of said mesostructured or ordered mesoporous material being less than 10% in volume. The invention also concern a method for obtaining such a material.
Owner:RHODIA CHEM SA
Inorganic/block copolymer-dye composites and dye doped mesoporous materials for optical and sensing applications
InactiveUS6952436B2High dye doping concentrationEnhancing dye dispersionActive medium materialOptical light guidesFiberMesoporous material
A method for preparing transparent mesostructured inorganic / block-copolymer composites or inorganic porous solids containing optically responsive species with selective optical, optoelectronic, and sensing properties resulting therefrom. Mesoscopically organized inorganic / block copolymer composites doped with dyes or complexes are prepared for use as optical hosts, chemical / physical / biological sensors, photochromic materials, optical waveguides, tunable solid-state lasers, or optoelectronic devices. The materials can be processed into a variety of different shapes, such as films, fibers, monoliths, for novel optical and sensing applications.
Owner:RGT UNIV OF CALIFORNIA
Mesoporous material with active metals
A process for treating organic compounds includes providing a composition which includes a substantially mesoporous structure of silica containing at least 97% by volume of pores having a pore size ranging from about 15 Å to about 30 Å and having a micropore volume of at least about 0.01 cc / g, wherein the mesoporous structure has incorporated therewith at least about 0.02% by weight of at least one catalytically and / or chemically active heteroatom selected from the group consisting of Al, Ti, V, Cr, Zn, Fe, Sn, Mo, Ga, Ni, Co, In, Zr, Mn, Cu, Mg, Pd, Pt and W, and the catalyst has an X-ray diffraction pattern with one peak at 0.3° to about 3.5° at 2θ. The catalyst is contacted with an organic feed under reaction conditions wherein the treating process is selected from alkylation, acylation, oligomerization, selective oxidation, hydrotreating, isomerization, demetalation, catalytic dewaxing, hydroxylation, hydrogenation, ammoximation, isomerization, dehydrogenation, cracking and adsorption.
Owner:ABB LUMMUS GLOBAL INC
Mesoporous material/micropore molecular sieve composite material and preparation method thereof
ActiveCN101172243AStrong acidStrong thermal and hydrothermal stabilityMolecular sieve catalystsCrystalline aluminosilicate zeolitesMolecular sieveCrystal structure
The invention provides a mesoporous material / microporous molecular sieve composite material and a preparation method thereof. The composite was prepared by in situ crystallization of porous clay heterogeneous materials (PCHs) mixed with microporous molecular sieve gels. In the composite material prepared by the invention, the microporous molecular sieve is wrapped around the porous clay heterogeneous material. The composite material has both the crystal structure of microporous molecular sieves and the mesoporous structure of porous clay heterogeneous materials, and has high mechanical stability, thermal and hydrothermal stability, and is superior to existing mesoporous molecular sieve / microporous molecular sieve composite materials. There are broader application prospects.
Owner:CHINA PETROLEUM & CHEM CORP +1
Novel mesoporous material for absorbing granule phase substance, coke tar, phenol and amine nitrite in mainstream flue gas of tobacco
InactiveCN101433818ANo change in microscopic morphologyNo change in macroscopic appearanceTobacco smoke filtersSilicon compoundsParticulatesToxicant
The invention discloses a novel mesoporous material for adsorbing tar, phenol and special nitrosamine in tobacco and so on, in mainstream smoke of the tobacco. The mesoporous material with high adsorption property is used as an addition material for filter tips of cigarettes; and the mesoporous material is a mesoporous molecular sieve with a three-dimensional mesh microstructure and monolithic appearance such as SBA-15,or is a SBA-15 mesoporous molecular sieve material which is plated with a liquid film or is modified by metal oxides such as zirconia and is provided with the three-dimensional mesh microstructure and the monolithic appearance. The invention adopts a more convenient and effective method to develop the SBA-15 mesoporous molecular sieve material with the three-dimensional mesh microstructure and the monolithic appearance and modify the surface / a surface layer, has good performance of intercepting environmental toxins such as interception particulate phase matters and phenol in smoke, has the characteristics of saving energy, saving time, and reducing environmental pollution during the preparation, can also reduce cost, and has remarkable economic benefit and social benefit.
Owner:NANJING UNIV
Supported ionic liquid catalyst, as well as preparation and application thereof
InactiveCN103495437AChemical choice goodMild reaction conditionsProductsOrganic chemistryEpoxyCycloaddition
The invention discloses a supported ionic liquid catalyst. The supported ionic liquid catalyst is characterized in that imidazole is immobilized onto chloromethylated FDU mesoporous phenolic resin by nucleophilic reaction and reacts with halides containing different functional groups to prepare a mesoporous material supported functional imidazole type ionic liquid catalyst. The preparation of the catalyst comprises the following steps: chloromethylation of a mesoporous material, imidazolation and supporting of ionic liquid. The catalyst is used for synthesizing a cyclic carbonate by cyclic addition reaction of carbon dioxide and an epoxy compound, and the using quantity of the catalyst is 0.1-2mol% of the liquid content of the epoxy compound. Compared with the prior art, a large number of hydroxyl groups exist in the mesoporous material, and the supported ionic liquid catalyst has the double advantages of an inorganic mesoporous material and an organic polymer, as well as large specific surface area, adjustable pore structure, good hydrophobicity and chemical stability, high catalytic activity, good chemical selectivity, easiness in separation and recovery, mild reaction conditions, environmental friendliness and easiness in industrial implementation.
Owner:EAST CHINA NORMAL UNIV
Aromatics hydrogenation catalyst and preparation method and application of aromatics hydrogenation catalyst
InactiveCN102688770AMolecular sieve catalystsRefining by aromatic hydrocarbon hydrogenationPolycyclic aromatic hydrocarbonMolecular sieve
Discloses is an aromatics hydrogenation catalyst. Mesoporous zeolite is used as a catalyst carrier, an active component of the aromatic hydrogenation catalyst includes precious metal, and the mass of the precious metal in the catalyst ranges from 0.1% to 2.0%. The precious metal is used as the hydrogenation active component of the catalyst, the mesoporous zeolite with the advantages of a zeolite molecular sieve and advantages of mesoporous materials is used as the carrier, and the catalyst is applicable to a polycyclic aromatic hydrocarbon hydrogenation reaction process, and is higher in hydrogenation activity and sulfur poisoning resistance. When the aromatic hydrogenation catalyst and a catalyst comprising a conventional zeolite molecular sieve and commercial aluminum oxide load precious metal by the same evaluation device, the aromatic hydrogenation catalyst is higher in hydrogenation and dearomatization activity and sulfuric resistance.
Owner:QINGDAO INST OF BIOENERGY & BIOPROCESS TECH CHINESE ACADEMY OF SCI +1
Mesoporous material compositions and methods of their use for improving the appearance of biological surfaces
InactiveUS20080220026A1Unique optical effectImprove aesthetic appearanceBiocideCosmetic preparationsOptical propertyMesoporous material
The present invention relates to compositions and methods for treating and improving the aesthetic appearance of a biological surface by altering the optical properties of the biological surface, thereby resulting in a natural appearance. The compositions of the invention may be topically applied to the biological surface, including but not limited to skin, in an amount effective in improving the aesthetic and natural appearance of the biological surface.
Owner:AVON PROD INC
Mesoporous material with active metals
Owner:LUMMUS TECH INC
Mesoporous material-based composite phase change heat storage material and preparation method thereof
InactiveCN101812286AReduce contentSolving Phase Change Leakage ProblemsHeat-exchange elementsMesoporous materialHeat storage material
The invention discloses a mesoporous material-based composite phase change heat storage material and a preparation method thereof. The composite phase change heat storage material, which can still keep fixed shape even at the temperature higher than the melting point of phase change substance by 30 DEG C, is prepared by using mesoporous material as carrier matrix and organic substance as phase change substance according to methods of physical blending and impregnation. Compared with other technologies, reported in documents, for the preparation of shape-fixed composite phase change material, the preparation technology has the characteristics of great simplicity and saving time, and the prepared composite phase change heat storage material has high content of the phase change material, high latent heat of phase change and utilization rate of the latent heat, and obviously lowered phase change temperature.
Owner:PEKING UNIV
Cracking catalyst
ActiveCN1978593AImprove hydrothermal activity stabilityGood macromolecular cracking performanceCatalytic crackingRare-earth elementDiaspore
The invention discloses a cracking catalyst. The character is in that the catalyst has one kind of mesoporous material which is the (0-0.3)Na2O .(40-85)Al2O3 .(10-55)SiO2 .(1-20)MxOy, the metal M is one element in IB, IIB,IVB,VB,VIB,VIIB,VIIIB or lanthanide series rare earth; The x is the highest valence of O, y is the highest valence of M. The structure of the mesoporous material is same as the thin diaspore structure and the specific area is 200-400 square m / g, the hole volume is 0.5-2.0ml / g and the average size is 8-20nm, the most probable size is 5-15nm. The catalyst can be used in the catalytic cracking reaction directly, so it can improve the raw oil and the heavy oil percent conversion but decrease the sulfur content of FCC gasoline.
Owner:CHINA PETROLEUM & CHEM CORP +1
Inorganic mesoporous antiseptic material and its preparing method
InactiveCN1615700AImprove the bactericidal effectLow effective concentrationBiocideAnimal repellantsNitrogenMesoporous material
The present invention relates to a kind of inorganic mesoporous antiseptic material carrying nano ZnO or Ag particle and its preparation process. The preparation process includes dissolving mesoporous material and inorganic metal salt in volatile solvent via stirring; setting in the air to volatilize solvent; and direct roasting or high temperature roasting under nitrogen protection to decompose and crystallize metal salt to obtain the required mesoporous antiseptic material powder. The mesoporous antiseptic material has ordered tunnel structure, great specific surface area and pore volume, small nano ZnO or Ag particle with narrow size distribution, high sterilizing effect and other features.
Owner:FUDAN UNIV
Mesoporous material with active metals
A process for treating organic compounds includes providing a composition which includes a substantially mesoporous structure of silica containing at least 97% by volume of pores having a pore size ranging from about 15 Å to about 30 Å and having a micropore volume of at least about 0.01 cc / g, wherein the mesoporous structure has incorporated therewith at least about 0.02% by weight of at least one catalytically and / or chemically active heteroatom selected from the group consisting of Al, Ti, V, Cr, Zn, Fe, Sn, Mo, Ga, Ni, Co, In, Zr, Mn, Cu, Mg, Pd, Pt and W, and the catalyst has an X-ray diffraction pattern with one peak at 0.3° to about 3.5° at 2θ. The catalyst is contacted with an organic feed under reaction conditions wherein the treating process is selected from alkylation, acylation, oligomerization, selective oxidation, hydrotreating, isomerization, demetalation, catalytic dewaxing, hydroxylation, hydrogenation, ammoximation, isomerization, dehydrogenation, cracking and adsorption.
Owner:SHAN ZHIPING +5
Ordered mesoporous metal oxide material with ultra-large aperture and preparation method thereof
InactiveCN102173390AIncrease freedomReduce the rate of hydrolysisMaterial nanotechnologyOxide/hydroxide preparationSynthesis methodsMesoporous material
The invention belongs to the field of advanced nano-sized porous materials and techniques, in particular relates to an ordered mesoporous metal oxide material with ultra-large aperture and a preparation method thereof. According to the invention, a block copolymer with ultrahigh-molecular-weight hydrophobic segments is used as a template agent for the mesoporous material, and based on the principle of ligand-assisted self-assembly, the microphase separation of the ultrahigh-molecular-weight hydrophobic segments from hydrophilic phases occurs during the solvent evaporation process, to form an ordered mesoscopic structure. A variety of materials are used for synthesizing the mesoporous material, such as titanium dioxide, aluminum oxide and zinc oxide. The synthesized mesoporous material retains the order of mesopores and has an extremely large aperture not less than 20 nm. The invention provides an effective and convenient method for synthesizing ultra-large aperture mesoporous materials. The material and the synthesis method of the material have wide application prospect in various fields. The method is simple, has easily-available raw materials, and is suitable for large-scale production.
Owner:FUDAN UNIV
Displays for high resolution images and methods for producing same
InactiveUS20040252099A1Increase contrastImprove stabilityStatic indicating devicesTypewritersElectricitySpatially resolved
An electrode construction for incorporation into an electrochromic display device with a substrate; an electrochromic material applied to the substrate in a spatially resolved manner. The electrochromic material is (a) applied to the substrate with a resolution of greater than about 75 dpi and (b) the spatial resolution is obtained by a non-photolithographic method. The substrate may have a mesoporous morphology. Printing methods such as ink-jet printing may be used. Other materials such as masking materials, charge storing materials, complementary electrochromic materials and the mesoporous material itself may be set down by ink-jet methods. The electrodes construction may be included in electrochromic devices. The resolution obtained is high and devices incorporating these materials may be addressable.
Owner:NTERA LTD (IE)
Mesoporous composite of molecular sieves for hydrocracking of heavy crude oils and residues
ActiveUS20140124410A1High activityImprove stabilityMolecular sieve catalystsCatalyst activation/preparationMolecular sieveBoiling point
A hydrocracking catalyst having a support of a composite of mesoporous materials, molecular sieves and alumina, is used in the last bed of a multi-bed system for treating heavy crude oils and residues and is designed to increase the production of intermediate distillates having boiling points in a temperature range of 204° C. to 538° C., decrease the production of the heavy fraction (>538° C.), and increase the production of gasoline fraction (<204° C.). The feedstock to be processed in the last bed contains low amounts of metals and is lighter than the feedstock that is fed to the first catalytic bed.
Owner:INST MEXICANO DEL GASOLINEEO
Prepn process of metal oxide and sulfide nanometer linear array
InactiveCN1608998ALarge specific surface areaPromote migrationPolycrystalline material growthSingle crystal growth detailsOrganic solventSulfur
The present invention is reverse inorganic mesoporous material template process of preparing linear nanometer metal oxide and sulfide array. The preparation process includes first adding metal salt or sulfur source to the template to mix with volatile organic solvent homogeneously, setting in the air for volatizing organic solvent; repeating the said process for many times of filling; directly sintering for decomposing and crystallizing to produce corresponding oxide and sulfide or adding alkali solution directly to make ion inside the hole canal form oxide and hydroxide precipitate; and finally eliminating inorganic template to obtain required ordered linear nanometer metal oxide and sulfide array with great specific surface area. The said process can copy the mesoscopic structure of the inorganic template, and the product has great specific surface area, single mesoporous distribution, high crystallization, excellent optical, electric and magnetic performance.
Owner:FUDAN UNIV
Highly effective humidity conditioning material
InactiveCN101108902AReduce energy consumptionProtect healthArtifical filament manufactureMoisture storageMesoporous material
The invention discloses a highly-efficient humidity controlling material, which consists of the following components of the weight per cent: a biocatalyzer 30 per cent to 40 per cent, mesoporous material with 2nm to 5nm 45 per cent to 55 per cent, superabsorbent resin 5 per cent to 25 per cent. The highly-efficient humidity controlling material is frequently used as textile and walling with humidity controlling range 35 per cent to 75 per cent of the relative humidity. The humidity controlling material has the advantages of high moisture storage capacity, fast absorption and release, stable change of the external environment such as light, heat and pressure, and easy use.
Owner:华子昂
Contaminant adsorption filtration media, elements, systems and methods employing wire or other lattice support
InactiveUS20090294348A1Facilitate reclamationOther chemical processesDispersed particle filtrationParticulatesFiber
A contaminant adsorption is provided that includes a self-assembled monolayers on mesoporous supports (SAMMS) on a lattice support structure such as sintered metal wire mesh. Individual wire fibers of the sintered wire mesh may have a film coating of mesoporous material that is functionalized for a target metal. The mesh material is formed into filtration elements with or without particulate filtration media. Systems employing such filtration elements in one or multiple stages are also disclosed with an optional acid was stripping system for regenerating SAMMS and to facilitate reclamation of contaminants that can be refined into usable commercial materials.
Owner:PARKER HANNIFIN FILTRATION US INC
Nuclear shell structure mesoporous heavy metal ion adsorbent capable of magnetic separation and preparation method thereof
The invention relates to the field of mesoporous adsorbing materials, in particular to a nuclear shell structure mesoporous heavy metal ion adsorbent capable of magnetic separation. The adsorbent has the following structure: ferroferric oxide particles are used as core particles, amorphous silicon oxide is used as an external mesoporous layer, and a compact silicon oxide intermediate layer exists between the core and the mesoporous layer. The invention also provides a method for preparing the adsorbent. The invention can solve the problems of low filtration separation and centrifugal separation efficiency, complex operation and high cost of the simple mesoporous material, can separate the following materials in wastewater, i.e. can adsorb Hg<2+>, Pb<2+>, Cd<2+>, Zn<2+> and Cu<2+> in the wastewater, and can selectively adsorb the Hg<2+> in the wastewater.
Owner:EAST CHINA UNIV OF SCI & TECH
Contaminant Adsorbent Fluted Filter Element
InactiveUS20100044297A1Material nanotechnologySolid sorbent liquid separationSelf-assembled monolayerSorbent
A contaminant adsorption filter element is provided that includes a self-assembled monolayers on mesoporous supports (SAMMS) contained in a filter element having a plurality of pockets such as a fluted filter media. The plurality of pockets are filled with mesoporous material that is functionalized for a target contaminant. A method of making a filter element having mesoporous material filled flutes is also provided.
Owner:PARKER HANNIFIN FILTRATION US INC
Mesoporous material preparation method using fly ash
InactiveCN103861556AImprove performanceEliminate hazardsOther chemical processesAluminium silicatesDistilled waterMesoporous material
The invention belongs to the field of waste reutilization, and relates to a preparation method of fly-ash-based SBA-15, and the preparation method comprises the following steps: firstly, mixing fly ash and an alkali, then melting, and cooling to obtain a mixture; then adding distilled water into the mixture for dissolving, filtering to take supernatant for standby use, wherein the supernatant is an aluminosilicate solution; then, dissolving surfactant P123 in the distilled water, regulating the pH to acidic, fully stirring; then aging, filtering, washing, drying, roasting and cooling to obtain the powder-like mesoporous material fly-ash-based SBA-15. The fly-ash-based SBA-15 prepared by the method has a regular two-dimensional hexagonal structure, has a pore volume of 0.6-0.9cm<3> / g, a specific surface area as high as 800m<2> / g, and a pore diameter of 5-8nm. The method is simple, and is less in environment pollution due to use of effective components in waste as a silicon source.
Owner:TONGJI UNIV
Nonvolatile nanochannel memory device using mesoporous material
InactiveUS20060175653A1Improve performanceGood reproducibilityNanoinformaticsSolid-state devicesMesoporous materialNanotechnology
A nonvolatile nanochannel memory device using a mesoporous material. Specifically, a memory device is composed of a mesoporous material that is able to form nanochannels, in which a memory layer having metal nanoparticles or metal ions fed into the nanochannels is disposed between an upper electrode and a lower electrode. Thus, the memory device has high processability, and manifests excellent reproducibility and uniform performance.
Owner:SAMSUNG ELECTRONICS CO LTD
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