CHANGZHOU UNIVERSITY Patent applications |
Patent application number | Title | Published |
20160074849 | METHOD FOR PREPARING NANO METAL/METAL OXIDE LOADED MOLECULAR SIEVE CATALYST - The present disclosure provides a method for preparing a molecular sieve catalyst. A water-in-oil micro-emulsion including a continuous phase containing an organic solvent and a dispersed phase containing an aqueous solution containing one or more metal salts and a water-soluble organic carbon source is prepared, hydrolyzed, and azeotropically distilled to form a mixture solution. The mixture solution is heated to carbonize the water-soluble organic carbon source to form nanoparticles each having a core-shell structure including a carbon-shelled metal-oxide. The nanoparticles containing the carbon-shelled metal-oxide are dispersed in a molecular sieve precursor solution. A nanoparticle-loaded molecular sieve is formed from the molecular sieve precursor solution containing the nanoparticles, and then calcined to remove carbon there-from to form a metal-oxide loaded molecular sieve. | 03-17-2016 |
20150284254 | METHOD AND APPARATUS FOR PREPARING HIGH-PURITY CRYSTALLINE SILICA - The present disclosure provides a method and apparatus for preparing high-purity crystalline silica particles by mixing colloidal silica with an organic base to form a mixed sol. The mixed sol is heated up to a reaction temperature of about 180 degrees Celsius or above, which is held for a reaction time of about 8 to about 168 hours for a hydrothermal synthesis process in the mixed sol. A gravitational setting or a centrifugation is performed on the mixed sol to provide precipitates from the mixed sol. The precipitates are washed with deionized water to remove residual organic base. The washed precipitates are dried at about 60 to about 80 degrees Celsius and are collected and packaged to obtain high-purity crystalline silica particles. | 10-08-2015 |
20140256898 | PROCESS FOR PREPARING BRANCHED POLYMER - A process for preparing a branched polymer, belonging to the fields of polymer synthesis and preparation of functional polymers. A vinyl monomer, such as styrene, toluene (benzene, xylene) as a solvent, is subjected to a self-initiated free radical polymerization at 60˜100° C. with a new type of compound (methyl (meth)acrylate peroxide) as the initiator and the branched monomer containing both polymerisable double bond and peroxide bond, which can be used to synthesize the branched polymers. The degree of branching of the polymer can be adjusted by adjusting the molar ratio of the new type of compound to polymerisable monomer. The process for preparing a branched polymer is carried out under the conditions of conventional free radical polymerization without the addition of the branched monomer and other assist initiators. The polymerization is simple and feasible, has a high monomer conversion, a controllable degree of branching for the polymer, and is highly suitable for synthesizing branched polymers from various monomers. Another advantage of this process is its low production cost. | 09-11-2014 |