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39results about How to "Improve oxygen production performance" patented technology

Universal preparation method and application of active site-electrode structure integrated air electrode

The invention relates to a universal preparation method for an active site-electrode structure integrated air electrode. The universal preparation method is characterized in that various polymer microspheres having open internally-communicating hierarchical-pore structures are conjugated with active sites like noble metal groups, transition metal groups, and hetero atom-doped carbon groups in virtue of different treatment methods; the different treatment methods may be one or more selected from the group consisting of a carbon tetrachloride cross-linking method, a concentrated-sulfuric-acid sulfonation method, a carbon dioxide gas activation method, a dopamine coating method, an ammonia gas activation method, a polyaniline coating method, an in-situ precious-metal loading method, an in-situ transition metallide growth method and an in-situ heteroatom doping method. The universal method described in the invention can flexibly conjugate open internally-communicating hierarchical-pore electrode structures containing super-macro pores, macro pores, meso pores and micropores with a plurality of different highly-active catalytic sites by using appropriate methods, so the catalytic performance of the air electrode and the overall performance of a fuel cell and a metal-air battery are improved.
Owner:UNIVERSITY OF CHINESE ACADEMY OF SCIENCES

Carboxyl-containing perylene bisimide/oxygen-doped carbon nitride nanosheet heterojunction photocatalyst as well as preparation method and application thereof

The invention discloses a carboxyl-containing perylene bisimide / oxygen-doped carbon nitride nanosheet heterojunction photocatalyst as well as a preparation method and application thereof. The photocatalyst is formed by compounding carboxyl-containing perylene bisimide and an oxygen-doped carbon nitride nanosheet through electrostatic interaction and pi-pi interaction, wherein the mass ratio of theoxygen-doped carbon nitride nanosheet to the carboxyl-containing perylene bisimide ranges from 1: 0.001 to 1: 0.8. The carboxyl perylene bisimide is modified on the oxygen-doped carbon nitride nanosheet through an in-situ method. Compared with the prior art, the photocatalyst disclosed by the invention has the following advantages: (1) compared with O-CN and PDI in the prior art, the photocatalyst disclosed by the invention has more excellent performances of photocatalytically degrading pollutants, killing pathogenic bacteria and photolyzing water to produce oxygen; and (2) the raw materialsare cheap, the process is simple, the product cost is effectively reduced, and the method is suitable for industrial mass production and has very high application prospect and practical value.
Owner:JIANGNAN UNIV

Preparation method for similarly coralloid NiSe@NC and application thereof

The invention provides a preparation method for similarly coralloid NiSe@NC. The preparation method comprises the following steps that S1, 4,4'-dipyridyl, trimesinic acid and nickel nitrate are dissolved in N,N-dimethylformamide sequentially, after stirring is conducted for 35 minutes at room temperature, the temperature is increased to 120-130 DEG C at the rate of 5-10 DEG C, thermal reaction isconducted for 60-70 h, and Ni-MOFs are obtained; and S2, selenium powder and the Ni-MOFs are heated to 500-800 DEG C at the rate of 1-5 DEG C / min at the argon atmosphere, and after 1-3 h of heat preservation, the similarly coralloid NiSe@NC is obtained. Compared with the prior art, the preparation method has the following beneficial effects that the metal organic frameworks with nickel as the center serve as the precursor, through a one-step in-situ selenylation strategy, the coralloid NiSe@NC is obtained, then the structure can provide abundant catalytic active sites, good electrocatalysis hydrogen production and oxygen production performance is shown, 60 and 320 mV overpotential and 53 and 101 mV dec<-1> Tafel slope are achieved, and the similarly coralloid NiSe@NC can serve as a bifunctional electrocatalyst for electrolysis hydrogen evolution and oxygen evolution.
Owner:CHINA UNIV OF PETROLEUM (EAST CHINA)

Normal pressure CO2 zero-emission SOFC/AT/ST hybrid power system integrated with purge gas OTM oxygen supply

The present invention belongs to the technical field of normal pressure CO2 zero-emission solid oxide fuel cell (SOFC) hybrid power generation, and particularly relates to a normal pressure CO2 zero-emission SOFC / AT / ST hybrid power system integrated with purge gas OTM oxygen supply. An SOFC cell stack system, an OTM system, an air turbine AT, a waste heat boiler and a steam turbine system, and a CO2 recovery system are integrated by the present invention into an efficient and energy-saving CO2 zero-emission hybrid system. The system energy efficiency is high. Combustion products are CO2 and H2O, and CO2 is easy to separate and store. The power consumption is less. The system has a high efficiency as recovering CO2. The invention takes full advantage of the waste heat of SOFC high temperature exhaust, improves the efficiency of the system, and greatly reduces the energy consumption of CO2 separation and capture.
Owner:NORTH CHINA ELECTRIC POWER UNIV (BAODING)

Ferro-nickel diselenide, as well as preparation method and application thereof

The invention provides ferro-nickel diselenide, as well as a preparation method and application thereof. The ferro-nickel diselenide is a polyhedral nanocrystal and has a chemical formula as NixFe1-xSe2, wherein the value of X is 0.5. A Ni2Fe(OH)7 compound is prepared on a foamed nickel substrate through an electrodeposition method, and the reaction time only needs hundreds of seconds compared with the time required for a traditional hydrothermal method, so that the reaction time is greatly shortened; and the preparation process is simple and easy to implement, large-area preparation can be realized, a substrate covering the Ni2Fe(OH)7 compound can be prepared at a time, and foamed nickel is subject to selenylation through a solvent thermal selenization method so as to obtain the ferro-nickel diselenide which shows favorable hydrogen generation and oxygen generation performance.
Owner:INT ACAD OF OPTOELECTRONICS AT ZHAOQING SOUTH CHINA NORMAL UNIV

Preparation method for W18O49 self-supporting electrode material grown on carbon cloth surface in situ

The invention provides a preparation method for a W18O49 self-supporting electrode material grown on a carbon cloth surface in situ. The method comprises the following steps: adding an analytically-pure tungsten source into a mixed alcohol to obtain a solution A, and adding analytically-pure ethylenediamine and citric acid into the solution A to obtain a solution B; pouring the solution B into a polytetrafluoroethylene-lined high-pressure reaction kettle, and placing a carbon cloth into the polytetrafluoroethylene reaction kettle; placing the sealed reaction kettle into a homogeneous hydrothermal reactor, and performing a hydrothermal reaction; and performing centrifugal washing on the final reactant by using absolute ethanol, and drying the centrifugal washed material to obtain the W18O49self-supporting electrode material grown on the surface of the carbon cloth in situ. According to the method provided by the invention, the carbon cloth has high abundance, a lower price, a larger specific surface area, higher electron conductivity and an ideal 3D open-hole structure; and the method prepares the W18O49 / carbon cloth nano material with better electrocatalytic performance by using the carbon cloth as a supporting material and using a solvothermal method to grow W18O49 on the supporting body in situ.
Owner:SHAANXI UNIV OF SCI & TECH

Preparation method and application of of polyethylene glycol polydopamine-gold nanoparticles

The invention relates to a preparation method and application of polyethylene glycol polydopamine-gold nanoparticles. The preparation method comprises the steps of preparing the polydopamine nanoparticles through a one-pot method; modifying the surface of the polydopamine through polyethylene glycol; loading gold nanoparticles by utilizing the chelating ability of polydopamine; and performing performance evaluation on the obtained final product. The method disclosed by the invention is simple and easy to implement, and the prepared polyethylene glycol polydopamine-gold nanoparticles have goodmorphology uniformity and oxygen production capacity and have potential tumor hypoxia relieving capacity and photo-thermal treatment capacity.
Owner:SOUTHWEST UNIV

Electrochemical ceramic membrane oxygen producing machine and oxygen producing equipment thereof

The invention discloses an electrochemical ceramic membrane oxygen producing machine and oxygen producing equipment thereof, and relates to the technical field of oxygen production. The electrochemical ceramic membrane oxygen producing machine comprises a ceramic membrane stack, an airflow distributor, a heater, double helical exchangers and thermal isolation sleeves; the ceramic membrane stack comprises electrochemical ceramic membrane pieces vertically stacked parallelly, the sides of the electrochemical ceramic membrane pieces are closed to form vertical cavities, the other sides of the electrochemical ceramic membrane pieces are connected with oxygen outputting pipes through ceramic pipes, the bottom of the ceramic membrane stack closely fits the upper surface of the airflow distributor, and a heater is arranged at the lower end of the airflow distributor; the outer sides of the ceramic membrane stack, the airflow distributor and the heater are wrapped by the double helical exchangers, and the thermal isolation sleeves sleeve the two ends of each double helical exchanger and converge on a double helical interaction device. The electrochemical ceramic membrane oxygen producing machine and the oxygen producing equipment thereof can prepared pure oxygen, high-purity oxygen and hyperpure oxygen on site, and are small in size, light in weight, low in cost and suitable for quickdeployment.
Owner:北京汉华元生科技有限公司

Nanoscale ruthenium dioxide-coated ruthenium-loaded carbon micron sheet, and preparation method and application thereof

The invention provides a preparation method of a nanoscale ruthenium dioxide-coated ruthenium-loaded carbon micron sheet. Compared with the prior art, the preparation method of the nano-scale ruthenium dioxide coated ruthenium-loaded carbon micron sheet has the advantages that the nano-scale ruthenium dioxide coated ruthenium-loaded carbon micron sheet prepared by the preparation method has the characteristics of high loading capacity and high dispersion and has a large specific surface area and a large number of mesoporous structures; the micro ruthenium dioxide coated ruthenium nanoparticles and carbon are chemically coupled together, so that the conductivity of the material is improved; the electronic structure of the material is improved and the number of active sites is increased by increasing the loading capacity of the ruthenium dioxide coated ruthenium nanoparticles; meanwhile, due to the large specific surface area and a large number of mesoporous structures, electrolyte permeation and gas release are facilitated, and the electro-catalytic activity and stability of the material are synergistically improved; and the preparation method is simple, consists of simple adsorption, calcination and oxidation, is high in operability, easy to repeat, high in stability and easy for large-scale production, and can meet the actual requirement of hydrogen production by fully decomposing water.
Owner:UNIV OF SCI & TECH OF CHINA

Self-assembled tetra (4-carboxyphenyl) porphyrin/oxygen-doped carbon nitride nanosheet heterojunction photocatalyst as well as preparation method and application thereof

The invention discloses a self-assembled tetra (4-carboxyl phenyl) porphyrin / oxygen-doped carbon nitride nanosheet heterojunction photocatalyst as well as a preparation method and application thereof.The photocatalyst is formed by compounding self-assembled tetra (4-carboxyl phenyl) porphyrin (SA-TCPP) and an oxygen-doped carbon nitride nanosheet (O-CN) through electrostatic interaction and pi-piinteraction, the mass ratio of the O-CN to the SA-TCPP ranges from 1: 0.001 to 0.8; the SA-TCPP is modified on the O-CN through an in-situ method. Compared with the prior art, the photocatalyst disclosed by the invention has the following advantages that (1) compared with O-CN and SA-TCPP in the prior art, the photocatalyst disclosed by the invention has more excellent performances of photocatalytically degrading pollutants and photolyzing water to produce oxygen; and (2) the method disclosed by the invention is green, safe, simple in process, low in cost and suitable for industrial mass production, and has relatively high application prospect and practical value.
Owner:JIANGNAN UNIV

Bismuth telluride nanosheet loaded with cobalt nickel molybdenum particles and synthesis method thereof

The invention discloses a bismuth telluride nanosheet loaded with cobalt nickel molybdenum particles and a synthesis method thereof. A bismuth telluride nanosheet is in a hexagonal shape. The cobalt nickel molybdenum particles are uniformly distributed on the surface of the bismuth telluride nanosheet. By means of a solvothermal method, the hexagonal bismuth telluride nanosheet is obtained by controlling the temperature, and loading of the cobalt nickel molybdenum particles is performed on the bismuth telluride nanosheet by means of a direct reduction method. The method is low in implementation cost, easy and convenient to implement, low in pollution, efficient and economic, and meanwhile the material particle distribution is more uniform, large in specific surface area and stronger in oxygen evolution performance.
Owner:TIANJIN UNIV

Application of bismuth telluride nanosheet loaded with cobalt-nickel-molybdenum particles in field of oxygen reduction

The invention discloses application of a bismuth telluride nanosheet loaded with cobalt-nickel-molybdenum particles in the field of oxygen reduction. According to the application, a solvothermal method is utilized, the hexagonal bismuth telluride nanosheet is prepared by controlling the temperature, loading of the cobalt-nickel-molybdenum particles is carried out on the bismuth telluride nanosheetby utilizing a direct reduction method, the bismuth telluride nanosheet is in a hexagonal shape, and the cobalt-nickel-molybdenum particles are uniformly distributed on the surface of the bismuth telluride nanosheet. The application has the advantages that the cost is low, operation is simple and convenient, pollution is low, the method is an efficient and economic synthesis method, the materialparticles are more uniform in distribution, the specific surface area is large, and the oxygen evolution performance is higher.
Owner:TIANJIN UNIV

Method for preparing amorphous oxyhydroxide catalyst by mechanical stirring method and research on high-efficiency hydrogen production by electrolyzing water by using amorphous oxyhydroxide catalyst

The invention discloses an amorphous oxyhydroxide catalyst prepared by a mechanical stirring method and an efficient water electrolysis hydrogen production research of the amorphous oxyhydroxide catalyst, and belongs to the technical field of hydrogen production of electro-catalytic materials. According to the technical scheme, the method is characterized in that a precursor solution formed by mixing FeCl3. 6H2O, ethyl alcohol and NH4HCO3 is adopted for conducting mechanical stirring and doping on foam metal substrates such as commercial foam nickel and cobalt, chemical reduction and double decomposition reactions on the surfaces of the foam metal substrates are effectively controlled, and the nickel-iron or cobalt-iron-based oxide mesoporous film grows in situ. On the basis, low-cost preparation of the high-performance oxygen evolution catalyst is realized by virtue of a high-potential anodic oxidation method. The product shows excellent electrocatalytic oxygen evolution activity in an alkaline medium, the overpotential is reduced to about 310 millivolts at the large current density of 500 mA / cm<2>, and the composite material is durable and stable in performance, suitable for macro preparation, hopeful to be applied to the industrial alkaline electrolytic cell hydrogen production technology and capable of assisting rapid development of hydrogen energy economy in China.
Owner:HUNAN NORMAL UNIVERSITY

a co 4 o 4 Preparation method and application of cobalt-based metal-organic framework compound with quasi-cubane structure

The invention discloses a Co-containing 4 o 4 The preparation method and application of the cobalt-based metal-organic framework catalyst of the quasi-cubane structure, the present invention uses the triphenylamine carboxylic acid derivative L containing the azo functional group as the bridging ligand, and the Co in the transition metal salt Tm 2+ As metal nodes, Co-containing 4 o 4 The three-dimensional metal-organic framework compound Tm-L with a quasi-cubane structure, the metal-organic framework Tm-L not only simulates the natural oxygen-generating active center in structure, but also realizes the heterogeneity of homogeneous catalysts; at the same time, azotriphenylamine-derived carboxylic acid The hydrophobicity of the ligand and its relationship with Co 4 o 4 The semi-open space composed of clusters can ensure the water stability of the catalyst while enhancing the entry of water molecules and the contact with the catalytic active sites. The experiments of heterogeneous photocatalytic water splitting for oxygen and hydrogen production show that the metal-organic framework material Tm-L involved in the present invention is a good bifunctional cocatalyst and has a good application prospect in the field of photocatalytic water splitting.
Owner:DALIAN INST OF CHEM PHYSICS CHINESE ACAD OF SCI

Self-assembled tetrakis(4-carboxyphenyl)porphyrin/oxygen-doped carbon nitride nanosheet heterojunction photocatalyst and its preparation method and application

The invention discloses a self-assembled tetrakis(4-carboxyphenyl)porphyrin / oxygen-doped carbon nitride nanosheet heterojunction photocatalyst and its preparation method and application. The photocatalyst is composed of self-assembled tetrakis(4-carboxyphenyl) Base) porphyrin (SA‑TCPP) and oxygen-doped carbon nitride nanosheets (O‑CN) are composited by electrostatic interaction and π‑π interaction, where the mass ratio of O‑CN to SA‑TCPP ranges from 1 : 0.001~0.8; The SA-TCPP is modified on the O-CN by the in-situ method. Compared with the prior art, the present invention has the following advantages: (1) the photocatalyst of the present invention has more excellent photocatalytic degradation of pollutants and photolysis compared to O-CN and SA-TCPP of the prior art (2) The method of the invention is green, safe, simple in process, low in cost, suitable for industrial mass production, and has high application prospect and practical value.
Owner:JIANGNAN UNIV

a w 18 o 49 Preparation method of /nf self-supporting electrocatalytic material

a W 18 o 49 / NF self-supporting electrocatalytic material preparation method, adding tungsten source to mixed alcohol to obtain solution A; adding analytically pure ethylenediamine and cycloheptylamine to solution A to obtain solution B; pouring solution B into polytetrafluoroethylene lined with a high-pressure reactor, then put nickel foam into a polytetrafluoroethylene reactor containing solution B for hydrothermal reaction, cool to room temperature after the reaction, and centrifugally wash the final reactant with absolute ethanol. The material is dried to obtain W 18 o 49 / NF self-supporting electrocatalytic materials. In the present invention, oxygen-deficient rich W 18 o 49 Direct growth on nickel foam (NF) by a one-step method not only avoids the influence of the binder on the conductivity and activity of the catalyst during the preparation of the working electrode, but also can effectively improve the electrocatalytic performance.
Owner:SHAANXI UNIV OF SCI & TECH

Pressurized co2 zero emission sofc/gt/at/st hybrid power system combined with purge gas integrated otm

The invention belongs to the technical field of pressurized solid oxide fuel cell (SOFC) hybrid-power power generation with zero release of CO2 and particularly relates to a pressurized SOFC / gas turbine (GT) / air turbine (AT) / steam turbine (ST) hybrid power system with zero release of CO2 which is combined with scavenging and integrated with an optical terminal multiplexer (OTM). The invention integrates an SOFC stack system, an OTM system, the GT, the AT, a waste heat boiler, an ST system and a CO2 recovery system to obtain a high-efficiency energy-saving environment-friendly hybrid power system with zero release of CO2. The system energy utilization rate is high; the products of combustion are only CO2 and H2O and the separation and storage of CO2 are facilitated; the power consumption is less; the system has high efficiency while recovering CO2.
Owner:NORTH CHINA ELECTRIC POWER UNIV (BAODING)

a w 18 o 49 /niwo 4 Preparation method of /nf self-supporting electrocatalytic material

a W 18 O 49 / NiWO 4 / NF self-supporting electrocatalytic material preparation method, Na 2 WO 4 ·2H 2 O and Ni (CH 3 COO) 2 ·4H 2 O is added to deionized water in turn to obtain mixed solution A; mixed solution A is loaded into a polytetrafluoroethylene-lined high pressure reactor for hydrothermal reaction, and the reactants are washed and dried to obtain NiWO by calcination 4 Crystallization; NiWO 4 Crystallization and WCl 6 Add in dehydrated alcohol successively to obtain solution C; Pour solution C into a polytetrafluoroethylene-lined autoclave, then place nickel foam in a polytetrafluoroethylene reaction kettle to carry out hydrothermal reaction, and the final reactant is Centrifugal washing with absolute ethanol and drying to obtain W 18 O 49 / NiWO 4 / NF self-supporting electrocatalytic material. The invention has the advantages of low reaction temperature, mild conditions, easy realization, simple preparation process, low cost, easy process control and environmental friendliness, and the prepared W 18 O 49 / NiWO 4 / NF electrocatalytic material, showing excellent electrocatalytic hydrogen and oxygen production performance.
Owner:SHAANXI UNIV OF SCI & TECH

Novel nickel-iron electrolysis water oxygen production catalyst and preparation method thereof

The invention provides a novel nickel-iron bimetallic electrolysis water oxygen production catalyst. The valence state of nickel is high-valence +3 and + 4. An effective measure for improving the oxygen production performance of the catalyst is to improve the valence states of nickel and iron, especially the valence state of nickel, so as to obtain higher intrinsic activity; the invention providesthe method for preparing the high-valence nickel (+ 3 and + 4) iron bimetallic oxygen production catalyst under the condition of approximate normal temperature and normal pressure; the catalyst showsparticularly excellent oxygen production activity; and the preparation method is simple and suitable for large-scale production. According to the basic principle of the novel nickel-iron bimetallic electrolysis water oxygen production catalyst prepared by the method, the invention further provides a method for converting multivalent metal from low valence to high valence, so that besides the nickel provided by the invention, more low valence metal can be converted into high valence metal, so that different actual requirements can be met.
Owner:PEKING UNIV SHENZHEN GRADUATE SCHOOL

Nanometer preparation of porous Pt nanoflower loaded lactate oxidase as well as preparation and application of nanometer preparation

The invention discloses a nano preparation of porous Pt nanoflowers loaded with lactate oxidase, a preparation method of the nano preparation and application of the nano preparation in preparation of radiotherapy and chemotherapy combined sensitization anti-tumor drugs. The nano preparation takes porous Pt nanoflowers as a carrier to carry chemotherapeutic drugs, simultaneously carries lactate oxidase, and is coated with a cRDG modified liposome membrane. According to the nano preparation, drug intratumoral permeation is realized by using lactate oxidase-lactic acid substrate chemotaxis, a novel enzyme chemotaxis strategy taking lactic acid as a substrate is disclosed, and the application of a nano carrier in anti-tumor drug permeation is expanded.
Owner:FUJIAN PROVINCIAL HOSPITAL

Universal preparation method and application of active site combined with air electrode structure

The invention relates to a universal preparation method for an active site-electrode structure integrated air electrode. The universal preparation method is characterized in that various polymer microspheres having open internally-communicating hierarchical-pore structures are conjugated with active sites like noble metal groups, transition metal groups, and hetero atom-doped carbon groups in virtue of different treatment methods; the different treatment methods may be one or more selected from the group consisting of a carbon tetrachloride cross-linking method, a concentrated-sulfuric-acid sulfonation method, a carbon dioxide gas activation method, a dopamine coating method, an ammonia gas activation method, a polyaniline coating method, an in-situ precious-metal loading method, an in-situ transition metallide growth method and an in-situ heteroatom doping method. The universal method described in the invention can flexibly conjugate open internally-communicating hierarchical-pore electrode structures containing super-macro pores, macro pores, meso pores and micropores with a plurality of different highly-active catalytic sites by using appropriate methods, so the catalytic performance of the air electrode and the overall performance of a fuel cell and a metal-air battery are improved.
Owner:UNIVERSITY OF CHINESE ACADEMY OF SCIENCES

In situ growth on the surface of a carbon cloth 18 o 49 Preparation method of self-supporting electrode material

In-situ growth of W on the surface of a carbon cloth 18 o 49 The preparation method of the self-supporting electrode material, the analytical pure tungsten source is added to the mixed alcohol to obtain the solution A, and the analytical pure ethylenediamine and citric acid are added to the solution A to obtain the solution B; the solution B is poured into the polytetrafluoroethylene lined with high pressure Put the carbon cloth in the reaction kettle and put the carbon cloth into the polytetrafluoroethylene reaction kettle; put the sealed reaction kettle into the homogeneous hydrothermal reaction apparatus for hydrothermal reaction; wash the final reactant with absolute ethanol and centrifuge The washed material was dried to obtain in-situ growth of W on the surface of the carbon cloth 18 o 49 Self-supporting electrode material. Due to the high abundance and low price of carbon cloth, it has a large specific surface area, high electronic conductivity and ideal 3D open-pore structure. The present invention proposes to use carbon cloth as a supporting material, and adopts a solvothermal method to convert W 18 o 49 In situ growth on the support, the preparation of W with good electrocatalytic performance 18 o 49 / Carbon cloth nanomaterials.
Owner:SHAANXI UNIV OF SCI & TECH

Titanium dioxide catalyst loaded with tannic acid nickel iron, catalytic system, and preparation method and applications thereof

The invention discloses a titanium dioxide catalyst loaded with tannic acid nickel iron, a catalytic system, and a preparation method and applications thereof. The titanium dioxide catalyst loaded with tannic acid nickel iron is prepared through following steps: titanium dioxide nanorods are added into a mixed aqueous solution of nickel chloride and iron chloride for standing for 5 to 20min, so that full adsorption of nickel chloride and iron chloride by the titanium dioxide nanorods is realized; 2, a tannic acid solution and a sodium hydroxide solution are added into a reaction system obtained in step 1 in sequence, after reaction, washing and air drying are carried out so as to obtain the titanium dioxide catalyst loaded with tannic acid nickel iron. The obtained TiO2@TA-Ni3Fe possessesmore active sites, and is stable in structure; tannic acid nickel iron complex is capable of accelerating transferring and transmission of light induced charge carriers as an oxygen producing cocatalyst, and possesses obvious advantage effecs on anode photocatalysis oxygen production.
Owner:TIANJIN UNIV

Electrically-started chlorate oxygen candle grain

The invention relates to an electrically-started chlorate oxygen candle grain, and belongs to the technical field of oxygen generators. The chlorate oxygen candle grain comprises an oxygen-producing explosive block, an ignition charge column, igniters and inorganic cotton, wherein more than two grooves matched with starting charge columns in size are formed in the top of the oxygen-producing explosive block, the starting charge columns are located in the grooves, mounting holes are formed in the ignition charge column, the igniters are placed in the mounting holes, and the igniters are connected in series or in parallel through wires, wherein the igniter and the ignition powder column are fixed through inorganic cotton. In the oxygen candle grain with the structure, heat generated after the igniter is electrified can decompose the ignition grain and generate heat, so that the oxygen generating explosive block is ignited, and smooth starting of an oxygen candle is realized.
Owner:718TH RES INST OF CHINA SHIPBUILDING INDAL CORP

Nickel selenide composite material loaded with ferronickel tannate and preparation method and application of nickel selenide composite material

The invention discloses a ferronickel tannate-loaded nickel selenide composite material and a preparation method and application thereof. The ferronickel tannate-loaded nickel selenide composite material comprises a foamed nickel substrate, a nickel selenide nanostructure is deposited on the surface of the foamed nickel substrate, and the nickel selenide nanostructure is coated with a ferronickeltannate complex layer. As an electrocatalyst, the composite material has the advantages of low cost, low synthesis temperature, high product purity, large specific surface area, large generated current and good oxygen production performance.
Owner:TIANJIN UNIV

A kind of nickel-iron diselenide compound and its preparation method and application

The invention provides a nickel-iron diselenide compound and its preparation method and application. The nickel-iron diselenide compound is a polyhedral nanocrystal with a chemical formula of Ni x Fe 1‑x Se 2 , where the value of X is 0.5. The present invention prepares Ni on the foamed nickel substrate by electrodeposition 2 Fe(OH) 7 Compared with the time required by the traditional hydrothermal method, the reaction time is only a few hundred seconds, which greatly shortens the reaction time. The preparation process is simple and easy, and it can be prepared in a large area. 2 Fe(OH) 7 The base of the compound, and then selenize the nickel foam by solvothermal selenization to obtain a nickel-iron diselenide compound, which shows good hydrogen and oxygen production performance.
Owner:INT ACAD OF OPTOELECTRONICS AT ZHAOQING SOUTH CHINA NORMAL UNIV

Preparation method and application of cobalt-based metal organic framework compound containing Co4O4 quasi-cubic alkane structure

The invention discloses a preparation method and application of a cobalt-based metal organic framework catalyst containing a Co4O4 quasi-cubic alkane structure. A triphenylamine carboxylic acid derivative L containing an azo functional group is used as a bridging ligand, and Co < 2 + > in transition metal salt Tm is used as a metal node; a three-dimensional metal organic framework compound Tm-L containing the Co4O4 quasi-cubic alkane structure is prepared by a solvothermal synthesis method, and the metal organic framework Tm-L not only simulates a natural oxygen production active center in structure, but also realizes multiphase of a homogeneous catalyst; meanwhile, due to the hydrophobicity of the azotriphenylamine derivative carboxylic acid ligand and a semi-open space formed by the azotriphenylamine derivative carboxylic acid ligand and the Co4O4 cluster, the water stability of the catalyst is ensured, and meanwhile, the entry of water molecules and the contact with catalytic active sites are enhanced. A multiphase photocatalytic water decomposition oxygen and hydrogen production experiment shows that the metal organic framework material Tm-L is a good bifunctional promoter and has a good application prospect in the field of photocatalytic water decomposition.
Owner:DALIAN INST OF CHEM PHYSICS CHINESE ACAD OF SCI

Normal pressure CO2 zero-emission SOFC/AT/ST hybrid power system integrated with purge gas OTM oxygen supply

The present invention belongs to the technical field of normal pressure CO2 zero-emission solid oxide fuel cell (SOFC) hybrid power generation, and particularly relates to a normal pressure CO2 zero-emission SOFC / AT / ST hybrid power system integrated with purge gas OTM oxygen supply. An SOFC cell stack system, an OTM system, an air turbine AT, a waste heat boiler and a steam turbine system, and a CO2 recovery system are integrated by the present invention into an efficient and energy-saving CO2 zero-emission hybrid system. The system energy efficiency is high. Combustion products are CO2 and H2O, and CO2 is easy to separate and store. The power consumption is less. The system has a high efficiency as recovering CO2. The invention takes full advantage of the waste heat of SOFC high temperature exhaust, improves the efficiency of the system, and greatly reduces the energy consumption of CO2 separation and capture.
Owner:NORTH CHINA ELECTRIC POWER UNIV (BAODING)
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