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30results about How to "Catalytic activity does not decay" patented technology
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Double-functional catalyst of carbon-based non-noble-metal oxygen electrode and preparation method thereof
InactiveCN102513109ALow priceLow costCell electrodesMetal/metal-oxides/metal-hydroxide catalystsDoped grapheneNitrogenous heterocyclic compound
The invention discloses a double-functional catalyst of carbon-based non-noble-metal oxygen electrode and a preparation method thereof. The catalyst is a composite material composed of metal, metal oxide grains, N-doped graphene, carbon spheres and nanotubes. The preparation method of the catalyst comprises the following steps of: 1) weighing graphite oxide or graphene oxide, the carbon spheres, a metal compound and a nitrogen-containing heterocyclic compound according to ratios; carrying out ultrasonic treatment on the raw materials in a solvent; uniformly agitating and sufficiently drying to obtain a precursor; and 2) carrying out high-temperature pyrolysis in a precursor inert atmosphere to obtain a composite material catalyst. The catalyst provided by the invention not only has the advantages of high oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) catalytic performances, good stability and excellent CH3OH / CO tolerance, but also the cost of the raw materials is low, and the preparation method is simple and is easy to operate.
Owner:WUHAN UNIV
Nitrogen-doped graphene-ferronickel hydrotalcite difunctional oxygen catalyst and preparation method and application thereof
ActiveCN105514450AImprove conductivityHigh specific surface areaPhysical/chemical process catalystsCell electrodesCvd grapheneHydrotalcite
The invention relates to a nitrogen-doped graphene-ferronickel hydrotalcite non-noble metal difunctional oxygen catalyst and a preparation method thereof and electrocatalysis application of the oxygen catalyst in an alkaline medium to an oxygen evolution reaction and an oxygen reduction reaction. According to the catalyst, a micelle is taken as a template, ferronickel hydrotalcite is assembled on graphene oxide under the hydrothermal condition to form a spherical porous compound, the graphene oxide is reduced and doped with a nitrogen carbide nanosheet simultaneously under the hydrothermal condition, and then the nitrogen-doped graphene-ferronickel hydrotalcite oxygen catalyst is obtained. The method comprises the steps that the graphene oxide and metal salt are firstly dispersed into the micelle, the graphene oxide-ferronickel hydrotalcite compound is obtained through hydro-thermal synthesis under the alkaline condition, the product is doped with the nitrogen carbide nanosheet under the hydrothermal condition, and then the oxygen catalyst is obtained. The oxygen catalyst has the catalytic activity both on oxygen evolution and oxygen reduction under the alkaline condition and is high in stability and methyl alcohol tolerance, low in used raw material cost, simple in preparation method and convenient for scale production.
Owner:湛江市菱霸润滑油有限公司
Biomass carbon/ferrocobalt dual-metal-oxide double-functional oxide catalyst as well as preparation method and application thereof
The invention provides a biomass carbon / ferrocobalt dual-metal-oxide double-functional oxide catalyst as well as a preparation method and application thereof. The catalyst takes sodium alginate as a template; metal ions are firstly captured on sodium alginate molecules and a sodium alginate / ferrocobalt type hydrotalcite compound is prepared under an alkaline condition; and then the biomass carbon / ferrocobalt dual-metal-oxide double-functional oxide catalyst is prepared through high-temperature calcining. In the oxide catalyst provided by the invention, double metal oxides exist in the forms of CoO, Co3O4, FeO and Fe2O3, and less monomer Co is included. Therefore, the catalyst has high oxygen evolution (OER) and oxygen reduction (ORR) catalytic activities, good stability and excellent methanol tolerance under the alkaline condition; and the catalyst has the advantages of low cost of the used raw materials, simple preparation method, easiness in operation and convenience for large-scale production.
Owner:徐州圣都金属科技有限公司
Cobalt-nitrogen-sulfur co-doped carbon aerogel di-functional oxygen catalyst and preparation method and application thereof
ActiveCN107308977AEasy to buyEasy to manufacturePhysical/chemical process catalystsCell electrodesPorous carbonFreeze-drying
The invention discloses a cobalt-nitrogen-sulfur co-doped carbon aerogel di-functional oxygen catalyst and a preparation method and application thereof. The method comprises the following steps: uniformly combining cobalt ions with sodium alginate; performing hydrothermal treatment together with dopamine and mercaptan; centrifuging to obtain dopamine / mercaptan / cobalt-sodium alginate hydrogel; performing high-temperature calcination on the dopamine / mercaptan / cobalt-sodium alginate hydrogel obtained after freeze drying to obtain the cobalt-nitrogen-sulfur co-doped carbon aerogel di-functional oxygen catalyst. The catalyst is an aerogel porous material with an average aperture of 2 to 4 nanometers and a specific surface area of 126.8 to 138.3m<2> / g; cobalt exists in the form of a Co simple substance, CoO and Co3O4; a nitrogen atom doped in a porous carbon material mainly exists in the form of pyrrole and graphite. The cobalt, nitrogen and sulfur are co-doped, so that the catalyst has high oxygen evolution and oxygen reduction catalytic activities at the same time under an alkaline condition; moreover, the catalyst has the advantages of adoption of low-cost raw materials, simple preparation method, easiness in operation and convenience for large-scale production.
Owner:东营睿港投资服务有限责任公司
Nitrogen and cobalt double-doped porous carbon composite bifunctional oxygen catalyst and preparation method and application thereof
ActiveCN107604375AEasy to buyEasy to manufactureCell electrodesElectrodesPorous carbonOxygen evolution
The invention discloses a nitrogen and cobalt double-doped porous carbon composite bifunctional oxygen catalyst and a preparation method and application thereof. The preparation method comprises the steps that firstly, under a hydrothermal condition, divalent cobalt ions, melamine and sodium alginate are compounded to obtain melamine / cobalt ion-sodium alginate; and secondly, high-temperature calcination is performed, and then the nitrogen-cobalt double-doped porous carbon bifunctional oxygen catalyst is prepared. The catalyst is made of a porous material, the average hole diameter of the catalyst is 2 nm-8 nm, and the specific area is 148.23 m<2> / g-188.27 m<2> / g. According to the catalyst, cobalt exists in the forms of the Co elementary substance, CoO and Co3O4; and nitrogen atoms doped inthe porous carbon material exist in the forms of pyrrole and pyridine. Due to double doping of the cobalt and nitrogen, the catalyst has high oxygen evolution and oxygen reduction catalytic activity,good stability and excellent methyl alcohol tolerance at the same timeunder alkaline conditions, used raw materials are low in cost, the preparation method is simple, operation is easy, and large-scale production is convenient.
Owner:江苏世丰企业管理咨询有限公司
Alkaline fuel cell cathode carbon catalyst and preparation method thereof
InactiveCN103296292AEasy to operateIncrease productionCell electrodesOrganic-compounds/hydrides/coordination-complexes catalystsPtru catalystIron phthalocyanine
The invention discloses a high-performance alkaline fuel cell cathode carbon catalyst and a preparation method of the high-performance alkaline fuel cell cathode carbon catalyst. The catalyst disclosed by the invention is a composite carbon material in a core-shell nanostructure, which is prepared by adulterating two elements of Fe and N, using conductive carbon black with a high-ratio surface as an inner core and coating a phthalocyanine iron shell around the inner core. The preparation method comprises the following steps of: weighing and mixing phthalocyanine iron solid powder and the conductive carbon black with the high-ratio surface according to a certain mass ratio, and then preparing to obtain a C@FePc carbon non-noble metal catalyst in the core-shell nanostructure by adopting a simple mechanical ball milling method. The catalyst disclosed by the invention has high-performance oxygen reduction reaction (ORR) catalytic activity, excellent CH3OH / CO tolerance and good stability, the cost of raw materials used in the preparation process is low, the operation is simple and convenient, and the catalyst is easy for large-scale commercialized production.
Owner:WUHAN UNIV
Method for preparing graphene/nickel-iron hydrotalcite nano-sheet bifunctional oxygen catalyst by one-step process
ActiveCN109012675AAbundant resourcesLow priceCell electrodesCatalyst activation/preparationCvd grapheneHydrotalcite
The invention relates to a method for preparing a graphene / nickel-iron hydrotalcite nano-sheet bifunctional oxygen catalyst by a one-step process, and an electrocatalytic application thereof in an oxygen evolution reaction and an oxygen reduction reaction in an alkaline medium. Graphene oxide is as a substrate, ultrathin nickel-iron hydrotalcite nano-sheets in situ grow in a formamide and water mixed solution, and thermal reduction is carried out to prepare the graphene / nickel-iron hydrotalcite nano-sheet composite oxygen catalyst. The method avoids the steps of hydrotalcite-like peeling and chemical reduction of graphene oxide, increases the active sites of the catalyst, inhibits aggregation of graphene and nickel-iron hydrotalcite nano-sheets in the compound, and improves the conductivity of the compound; and the obtained catalyst reduces the overpotential of oxygen evolution and oxygen reduction reactions in the alkaline medium, reduces the electron transfer resistance, has good oxygen catalytic performance and stability, and provides a great way for the development of potential bifunctional oxygen catalysts.
Owner:QINGDAO UNIV OF SCI & TECH
MoS2 nanosphere difunctional oxygen catalyst of hierarchy structure and preparation method and application thereof
ActiveCN106622301ARaw materials are cheap and easy to getEasy to prepareElectrolysis componentsCell electrodesElectricityOverpotential
The invention relates to a MoS2 nanosphere difuncitonal oxygen catalyst of a hierarchy structure a preparation method thereof and application thereof in electrocatalyzing oxygen in an alkaline medium. The MoS2 nanosphere difuncitonal oxygen catalyst is MoS2 nanospheres which are synthesized by taking Na2MoO4 and KSCN as raw materials and adopting a hydrothermal method and have the hierarchy structure, and the MoS2 nanospheres are formed by a plurality of MoS2 nanosheets, so that the MoS2 nanospheres have a large specific surface area, and edge sits of the MoS2 nanosheets are fully exposed. Due to multiporous flower-shaped nanospheres formed by ultra-thin MoS2 nanosheet units, the effective electrochemical catalysis area and the catalytic sites are increased, and the electron conduction rate is quickened, so that overpotential of an oxygen evolution reaction and an oxygen reduction reaction can be effectively reduced; a rotating disk electrode and a rotating ring disk electrode show that the oxygen reduction process is based on a four-electron catalytic mechanism and is a relatively ideal oxygen reduction reaction process.
Owner:江苏乐士源新能源科技有限公司
Preparation method of Ag-coated CoMoO4 oxygen evolution electrocatalyst
PendingCN114147221ALow costShort operating cycleMaterial nanotechnologyTransportation and packagingNaCl - Sodium chlorideHydrogen production
The invention relates to the technical field of water electrolysis catalytic materials, in particular to a preparation method of an Ag-coated CoMoO4 oxygen evolution electrocatalyst. Comprising the following steps: (1) mixing polyvinylpyrrolidone with 1, 2-propylene glycol, stirring at a certain temperature, and then adding a sodium chloride solution and a silver nitrate solution with a certain concentration to prepare a silver nanowire solution; (2) purifying the silver nanowires with acetone and washing the silver nanowires for several times for later use; (3) weighing 2-methylimidazole, adding 2-methylimidazole into a mixed solution of different amounts of silver nanowires and methanol, adding a methanol solution of cobalt nitrate hexahydrate, dissolving the mixed solution in ethanol, and stirring at normal temperature; (4) adding sodium molybdate nonahydrate into the product obtained in the step (3), and carrying out hydrothermal reaction; after naturally cooling to room temperature, centrifugally collecting, washing with ethanol for multiple times, and drying to obtain the catalyst; the production cost is low, large-scale production is easy to achieve, the microstructure and good catalytic activity can be kept for a long time under the alkaline condition, and potential industrial application value is achieved in the aspect of electro-catalytic hydrogen production.
Owner:ZHONGBEI UNIV
Mining quick-plugging polyurethane foam material and preparation method thereof
The invention relates to a mining quick-plugging polyurethane foam material and a preparation method thereof, and belongs to a mining polymer material. According to the technical scheme, the materialis composed of a component A combined material and a component B combined material, the method includes filling a metal steel cylinder A and a metal steel cylinder B with the component A combined material and the component B combined material respectively; respectively inflating nitrogen into the two metal steel cylinders A and B for pressurization and controlling the pressure in the metal steel cylinder A to be 2.0 to 2.1 Mpa and the pressure in the metal steel cylinder B to be 2.1-2.2 Mpa; mixing and spraying the material A and the material B through spray guns according to a mass ratio of 1: 1 and a ratio that the reaction group molar ratio of -NCO to -OH is 1.09-1.25:1, and mixing the material A and the material B through spray heads of the spray guns to form the quick-plugging polyurethane foam material for mining. According to the invention, the polyurethane foam formed by spraying has good toughness and bonding strength, and the plugging and sealing effects are enhanced.
Owner:山西合成材料产业技术研究院有限公司
a rgo@pd 7 the se 2 Composite structure nanomaterials and their preparation methods and applications
ActiveCN112626546BIncrease the number of active sitesImprove adsorption capacityElectrodesElectrolysisNanoparticle
The invention provides a rGO@Pd 7 Se 2 The composite structure nano material and its preparation method and application belong to the technical field of nano material synthesis and preparation. The composite structure nanomaterial is Pd 7 Se 2 Nanoparticles uniformly anchored on reduced graphene oxide (rGO), Pd 7 Se 2 The particle size of the nanoparticles is ~100nm, and the shape is nearly cubic. The preparation method uses selenous acid and sodium tetrachloropalladate as the reaction substances, deionized water as the reaction solvent, and synthesizes rGO@Pd by one-step hydrothermal method 7 Se 2 Composite nanomaterials. And load rGO@Pd 7 Se 2 Electrodes of nanomaterials exhibit excellent catalytic performance and continuous electrolytic stability in electrocatalytic nitrogen fixation. The synthesis process is simple, the toxicity is low, the reaction conditions are mild, and the cost is low.
Owner:UNIV OF ELECTRONICS SCI & TECH OF CHINA
Nitrogen-doped graphene/nickel-iron hydrotalcite bifunctional oxygen catalyst and its preparation method and application
ActiveCN105514450BEasy to buyEasy to manufacturePhysical/chemical process catalystsCell electrodesNitrogen doped grapheneOxygen
The invention relates to a nitrogen-doped graphene-ferronickel hydrotalcite non-noble metal difunctional oxygen catalyst and a preparation method thereof and electrocatalysis application of the oxygen catalyst in an alkaline medium to an oxygen evolution reaction and an oxygen reduction reaction. According to the catalyst, a micelle is taken as a template, ferronickel hydrotalcite is assembled on graphene oxide under the hydrothermal condition to form a spherical porous compound, the graphene oxide is reduced and doped with a nitrogen carbide nanosheet simultaneously under the hydrothermal condition, and then the nitrogen-doped graphene-ferronickel hydrotalcite oxygen catalyst is obtained. The method comprises the steps that the graphene oxide and metal salt are firstly dispersed into the micelle, the graphene oxide-ferronickel hydrotalcite compound is obtained through hydro-thermal synthesis under the alkaline condition, the product is doped with the nitrogen carbide nanosheet under the hydrothermal condition, and then the oxygen catalyst is obtained. The oxygen catalyst has the catalytic activity both on oxygen evolution and oxygen reduction under the alkaline condition and is high in stability and methyl alcohol tolerance, low in used raw material cost, simple in preparation method and convenient for scale production.
Owner:湛江市菱霸润滑油有限公司
Nickel-iron-nitrogen-doped carbon material trifunctional electrocatalyst based on zif-8 and its preparation method and application
ActiveCN112005413BHigh catalytic activityImprove conductivityCell electrodesOrganic-compounds/hydrides/coordination-complexes catalystsElectronic structurePtru catalyst
The invention provides a ZIF-8-based nickel-iron-nitrogen-doped carbon material trifunctional electrocatalyst and its preparation method and application, belonging to the technical field of electrochemical catalysis. The invention provides a ZIF-8-based nickel-iron-nitrogen-doped carbon material trifunctional electrocatalyst, which has a core-shell structure, and the core layer is composed of nanoparticles containing iron and nickel elements, and is composed of nitrogen-doped carbon materials Shell. The electrocatalyst provided by the present invention has a core-shell structure, which can accelerate the electron transfer efficiency of the reaction process; the doping of iron, nickel and nitrogen changes the electronic structure and morphology of the carbon material, and improves the conductivity and catalytic performance of the catalyst. Therefore, the electrocatalyst provided by the present invention exhibits excellent multifunctional electrocatalytic performance, has good methanol tolerance and cycle stability, and has potential application value in technologies such as fuel cells and electrolyzed water.
Owner:青岛鸿硅高沃新材料科技有限公司
A kind of catalyst for preparing chloroacetic acid by catalyzing acetic acid and its preparation and application
ActiveCN109529798BSolve the real problemSolve the separation problemPhysical/chemical process catalystsOrganic compound preparationPtru catalystChloroacetic acids
The invention relates to a catalyst for preparing chloroacetic acid from acetic acid and its preparation and application. The preparation method of the catalyst is as follows: (1) Mix phenol and formaldehyde aqueous solution, add metal powder and metal oxide, disperse and then heat the reaction (2) continue to add paraformaldehyde solid and / or hexamethylenetetramine in the reaction gained solution, stir and mix evenly, obtain the viscous liquid mixture, discharge while hot, granulate, obtain bar-shaped particle: ( 3) Dry the obtained strip-shaped particles, heat up and solidify, and then continue to heat up under the protection of an inert gas to obtain carbonized / graphitized particles; (4) finally elute the obtained carbonized / graphitized particles with aqueous nitric acid solution to obtain the target product. Compared with the prior art, the present invention effectively solves the problems of separation of the catalyst and the reaction solution, greatly improves the selectivity of the main product chloroacetic acid, and greatly reduces the production cost and labor intensity.
Owner:SHANGHAI INSTALLATION ENG GRP +1
A kind of mos2 nanosphere bifunctional oxygen catalyst with hierarchical structure and its preparation method and application
ActiveCN106622301BRaw materials are cheap and easy to getEasy to manufactureElectrolysis componentsCell electrodesOxygenRotating ring-disk electrode
The invention relates to a MoS2 nanosphere difuncitonal oxygen catalyst of a hierarchy structure a preparation method thereof and application thereof in electrocatalyzing oxygen in an alkaline medium. The MoS2 nanosphere difuncitonal oxygen catalyst is MoS2 nanospheres which are synthesized by taking Na2MoO4 and KSCN as raw materials and adopting a hydrothermal method and have the hierarchy structure, and the MoS2 nanospheres are formed by a plurality of MoS2 nanosheets, so that the MoS2 nanospheres have a large specific surface area, and edge sits of the MoS2 nanosheets are fully exposed. Due to multiporous flower-shaped nanospheres formed by ultra-thin MoS2 nanosheet units, the effective electrochemical catalysis area and the catalytic sites are increased, and the electron conduction rate is quickened, so that overpotential of an oxygen evolution reaction and an oxygen reduction reaction can be effectively reduced; a rotating disk electrode and a rotating ring disk electrode show that the oxygen reduction process is based on a four-electron catalytic mechanism and is a relatively ideal oxygen reduction reaction process.
Owner:江苏乐士源新能源科技有限公司
Alkaline fuel cell cathode carbon catalyst and preparation method thereof
InactiveCN103296292BEasy to operateIncrease productionOrganic-compounds/hydrides/coordination-complexes catalystsCell electrodesPhthalocyanineNon noble metal
Owner:WUHAN UNIV
Biomass carbon/cobalt-iron double metal oxide bifunctional oxygen catalyst and its preparation method and application
The invention provides a biomass carbon / ferrocobalt dual-metal-oxide double-functional oxide catalyst as well as a preparation method and application thereof. The catalyst takes sodium alginate as a template; metal ions are firstly captured on sodium alginate molecules and a sodium alginate / ferrocobalt type hydrotalcite compound is prepared under an alkaline condition; and then the biomass carbon / ferrocobalt dual-metal-oxide double-functional oxide catalyst is prepared through high-temperature calcining. In the oxide catalyst provided by the invention, double metal oxides exist in the forms of CoO, Co3O4, FeO and Fe2O3, and less monomer Co is included. Therefore, the catalyst has high oxygen evolution (OER) and oxygen reduction (ORR) catalytic activities, good stability and excellent methanol tolerance under the alkaline condition; and the catalyst has the advantages of low cost of the used raw materials, simple preparation method, easiness in operation and convenience for large-scale production.
Owner:徐州圣都金属科技有限公司
Double-functional catalyst of carbon-based non-noble-metal oxygen electrode and preparation method thereof
InactiveCN102513109BLow priceLow costCell electrodesMetal/metal-oxides/metal-hydroxide catalystsDoped graphenePtru catalyst
The invention discloses a double-functional catalyst of carbon-based non-noble-metal oxygen electrode and a preparation method thereof. The catalyst is a composite material composed of metal, metal oxide grains, N-doped graphene, carbon spheres and nanotubes. The preparation method of the catalyst comprises the following steps of: 1) weighing graphite oxide or graphene oxide, the carbon spheres, a metal compound and a nitrogen-containing heterocyclic compound according to ratios; carrying out ultrasonic treatment on the raw materials in a solvent; uniformly agitating and sufficiently drying to obtain a precursor; and 2) carrying out high-temperature pyrolysis in a precursor inert atmosphere to obtain a composite material catalyst. The catalyst provided by the invention not only has the advantages of high oxygen reduction reaction (ORR) and oxygen evolution reaction (OER) catalytic performances, good stability and excellent CH3OH / CO tolerance, but also the cost of the raw materials is low, and the preparation method is simple and is easy to operate.
Owner:WUHAN UNIV
A kind of iron-based nano-array electrocatalytic electrode, its preparation method and alkaline fuel cell
InactiveCN106328957BIncreased oxygen reduction current densityHigh catalytic activity for oxygen reductionFinal product manufactureCell electrodesPeak currentMaterials science
Owner:INST OF PROCESS ENG CHINESE ACAD OF SCI
One-step method for preparing graphene/nickel-iron hydrotalcite nanosheet bifunctional oxygen catalyst
ActiveCN109012675BEasy to buyEasy to manufactureCell electrodesCatalyst activation/preparationPtru catalystElectron transfer resistance
The invention relates to a method for preparing graphene / nickel-iron hydrotalcite nanosheet bifunctional oxygen catalyst in one step and its electrocatalytic application to oxygen evolution reaction and oxygen reduction reaction in alkaline medium. The invention uses graphene oxide as the substrate, grows ultra-thin nickel-iron hydrotalcite nanosheets in situ in a mixed solution of formamide and water, and then prepares a graphene / nickel-iron hydrotalcite nanosheet composite oxygen catalyst by thermal reduction , this method avoids the steps of water-like stripping and chemical reduction of graphene oxide, increases the active sites of the catalyst, inhibits the aggregation of graphene and nickel-iron hydrotalcite nanosheets in the composite, and improves the composite Conductivity, the obtained catalyst reduces the overpotential of oxygen evolution and oxygen reduction reactions in alkaline media, reduces its electron transfer resistance, shows good oxygen catalytic performance and stability, and provides a basis for the development of potential bifunctional oxygen catalysts important method.
Owner:青岛鸿硅高沃新材料科技有限公司
Phosphorus-doped porous carbon-coated tricobalt tetroxide oxygen reduction catalyst and its preparation method and application
A phosphorus-doped porous carbon-coated tricobalt tetroxide oxygen reduction catalyst, preparation method and application thereof. In the present invention, ZIF-67 is used as template and precursor, sodium phytate is used as phosphorus source, and phosphorus-doped porous carbon-coated tricobalt tetroxide oxygen reduction catalyst is prepared by high-temperature calcination in an inert atmosphere. After calcination, the carbon material inherits the porous structure of ZIF. , and the metal is oxidized into cobalt tetroxide, which is uniformly supported on phosphorus-doped carbon materials. The obtained oxygen reduction catalyst has high conductivity and specific surface area, which effectively reduces the overpotential of oxygen reduction. The rotating ring-disk electrode shows that the oxygen reduction reaction is an ideal 4-electron mechanism with good stability and methanol tolerance. The electrocatalyst fully utilizes the synergistic effect of cobalt tetroxide and phosphorus-doped carbon materials in oxygen reduction catalysis, and has potential application value in the fields of energy conversion and storage.
Owner:湖南麓邵技术服务有限公司
Nitrogen-cobalt double-doped porous carbon composite bifunctional oxygen catalyst and its preparation method and application
ActiveCN107604375BEasy to buyEasy to manufactureCell electrodesElectrodesPorous carbonOxygen evolution
The invention discloses a nitrogen and cobalt double-doped porous carbon composite bifunctional oxygen catalyst and a preparation method and application thereof. The preparation method comprises the steps that firstly, under a hydrothermal condition, divalent cobalt ions, melamine and sodium alginate are compounded to obtain melamine / cobalt ion-sodium alginate; and secondly, high-temperature calcination is performed, and then the nitrogen-cobalt double-doped porous carbon bifunctional oxygen catalyst is prepared. The catalyst is made of a porous material, the average hole diameter of the catalyst is 2 nm-8 nm, and the specific area is 148.23 m<2> / g-188.27 m<2> / g. According to the catalyst, cobalt exists in the forms of the Co elementary substance, CoO and Co3O4; and nitrogen atoms doped inthe porous carbon material exist in the forms of pyrrole and pyridine. Due to double doping of the cobalt and nitrogen, the catalyst has high oxygen evolution and oxygen reduction catalytic activity,good stability and excellent methyl alcohol tolerance at the same timeunder alkaline conditions, used raw materials are low in cost, the preparation method is simple, operation is easy, and large-scale production is convenient.
Owner:江苏世丰企业管理咨询有限公司
Metal-N4 doped carbon catalyst with high oxygen reduction performance and preparation method thereof
PendingCN114335581AEasy to operateSuitable for large-scale preparationMaterial nanotechnologyCell electrodesPtru catalystMaterials science
The invention discloses a metal-N4-doped carbon catalyst with high oxygen reduction performance and a preparation method thereof, the metal-N4-doped carbon catalyst is a transition metal and nitrogen element-doped two-dimensional carbon nanosheet, the carbon catalyst has a porous lamellar nanostructure, all metal species in the carbon catalyst are an Me-N4 structure composed of atomic transition metal and N4, and Me-N4 is an active site. Wherein Me is at least one metal of Fe, Co, Ni, Cu, Zn and Mn. The method comprises the following steps: adding three compound precursors of metal phthalocyanine, phthalocyanine and zinc salt into a liquid solvent according to a set mass ratio, uniformly mixing, continuously heating until the liquid solvent is completely volatilized, and preparing the metal-N4 doped non-noble metal carbon catalyst by adopting a one-step high-temperature pyrolysis method. The catalyst disclosed by the invention has high oxygen reduction reaction (ORR) catalytic activity, excellent CH3OH / CO tolerance and good stability; the preparation process is simple and easy to control, the used raw materials are commercially available products, and batch production can be realized.
Owner:SHANGHAI UNIV
A mine-used rapid plugging polyurethane foam material and preparation method thereof
The invention discloses a mine-used rapid plugging polyurethane foam material and a preparation method thereof, belonging to mine-used polymer materials. The technical solution is composed of A-component composite material and B-component composite material; the above-mentioned component A composite material and B-component composite material are respectively packed in two metal steel cylinders A and B, and are supplied to the two metal cylinders A and B respectively. Nitrogen is filled in the middle to pressurize, and the pressure inside the metal cylinder A is controlled to be 2.0-2.1Mp.a, and the pressure inside the metal cylinder B is 2.1-2.2Mp.a, and then the materials A and B are passed through the spray gun at a mass ratio of 1:1 , ‑NCO:‑OH=1.09~1.25:1 The molar ratio of reactive groups is mixed and sprayed. After the A and B materials are mixed through the nozzle of the spray gun, the rapid plugging polyurethane foam material for mining can be formed. The invention makes the polyurethane foam formed by spraying have good toughness and bonding strength, and enhances the plugging and sealing effect.
Owner:山西合成材料产业技术研究院有限公司
Ionic liquid covalently modified graphene-exfoliated hydrotalcite-like bifunctional oxygen catalyst and its preparation method and application
The invention discloses graphene / stripped hydrotalcite composite material non-noble metal bifunctional oxygen catalyst modified covalently by an ionic liquid, a preparation method thereof, and an electrical catalytic application of the catalyst for an oxygen evolving reaction (OER) and an oxygen reduction reaction (ORR) in an alkaline medium. By means of special solubility and high electric-conductivity the ionic liquid, through covalent modification, the ionic liquid is introduced onto surface of a graphene / stripped hydrotalcite composite material to prepare the graphene / stripped hydrotalcite composite material modified covalently by the ionic liquid. The oxygen catalyst, under an alkaline condition, has high OER and ORR bifunctional catalytic activity, excellent dispersibility and excellent methanol tolerance, is low in raw material cost and simple in preparation method, is easy to use and is convenient to produce in large scale.
Owner:徐州兰岳企业管理服务有限公司
A kind of cobalt-carbon porous nanocomposite oxygen reduction electrocatalyst and its preparation method and application
The invention discloses a metal organic skeleton compound-based cobalt-carbon porous nanocomposite oxygen reduction electrocatalyst and its preparation method and application. The cobalt-carbon porous nanocomposite oxygen reduction electrocatalyst is prepared from a metal organic skeleton compound [Co(O-BDC)(bbp)] as a precursor through high-temperature calcination. The carbon material has a porous structure. A cobalt element is uniformly supported on the carbon material. The oxygen reduction electrocatalyst has high electrical conductivity and a large specific surface area and effectively reduces the overpotential of oxygen reduction. Through a rotating disk electrode and a rotating ring electrode, it is proved that the oxygen reduction process is an ideal 4 electron oxygen reduction catalytic process. The electrocatalyst fully performs synergism of cobalt and a carbon material in electrocatalysis and has great theoretical and practical significance for the development of novel electrochemical catalysts and energy conversion and storage devices.
Owner:安徽伏碳科技有限公司
A kind of preparation method of heterogeneous oxidation reaction catalytic fiber
ActiveCN113083372BGood orientationHigh crystallinityWater treatment compoundsOrganic-compounds/hydrides/coordination-complexes catalystsSpinningPhysical chemistry
The invention discloses a method for preparing a heterogeneous oxidation reaction catalytic fiber. In the method, free radical polymerization, wet spinning, coordination and crosslinking of organic polymer ligands and iron ions, high-stretching heat setting treatment and Iron ions coordinate cross-linking again. High-stretching makes the curled macromolecular chains in the fiber highly stretched and oriented, endowing the fiber with excellent mechanical properties. High-stretching and heat-setting treatment effectively increase the specific surface area of the fiber during the process of highly refining the fiber, exposing more carboxyl active sites, in order to coordinate more iron ions and form a more complete three-dimensional network cross-linking The structure lays the foundation and endows the fibers with extremely high catalytic activity. The exposed redundant carboxyl active sites can quickly coordinate the eluted iron ions, effectively inhibit the loss of active components, endow the fiber with stable reusability, and at the same time, the concentration of residual iron ions in the purified water is extremely low, reducing Secondary pollution.
Owner:TIANJIN POLYTECHNIC UNIV
A kind of non-precious metal catalyst and preparation method thereof
InactiveCN107029772BCatalytic activity does not decayHigh activityPhysical/chemical process catalystsPtru catalystMetal-organic framework
The invention discloses a non-noble metal catalyst and a preparation method thereof. The preparation method includes the following steps: (1) Dissolve a metal compound and an organic molecular linker respectively in proportion, and uniformly mix the two solutions obtained by dissolving, so that the metal ions Perform chelation reaction with organic molecules to generate a precipitate; centrifuge or suction filtrate the precipitate to obtain an intermediate product; and dry the intermediate product to obtain a precursor; (2) Place the precursor in an inert atmosphere Perform pyrolysis carbonization treatment under the conditions to obtain the non-noble metal catalyst. The non-noble metal catalyst prepared by the invention has a metal-organic framework structure as the core, multi-walled carbon nanotubes on the surface, and has a large specific surface area; it has good oxygen reduction catalytic performance, oxygen evolution catalytic performance, stability, and good CH 3 OH tolerance, it can maintain long-term stable catalytic activity when applied to fuel cells.
Owner:WUHAN UNIV OF TECH
Nitrogen-doped graphene/cobalt-iron hydrotalcite bifunctional oxygen catalyst and its preparation method and application
ActiveCN105826574BEasy to buyEasy to manufactureMaterial nanotechnologyPhysical/chemical process catalystsFerrocobaltNitrogen doped graphene
The invention discloses a nitrogen-doped graphene / ferrocobalt hydrotalcite-like compound non-precious metal difunctional oxygen-reduction catalyst and a preparing method and application thereof. A bimetallic oxide is used as a precursor, the memory effect of a hydrotalcite-like compound is utilized, oxidized graphene and the ferrocobalt hydrotalcite-like compound are assembled, and then the compound is doped with carbon nitride nanosheets under the reduction condition to obtain a nitrogen-doped graphene / ferrocobalt hydrotalcite-like compound composition. The oxygen-reduction catalyst has high catalytic activity to oxygen evolution reaction (OER) and oxygen reduction reaction (ORR) at the same time under the alkaline condition and has high stability and excellent methyl alcohol tolerance, the cost of adopted raw materials is low, the preparing method is simple, operation is easy, and large-scale production can be achieved conveniently.
Owner:JIANGSU SANJI IND
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