Abstract: The present application discloses an information interaction method, device, apparatus and medium based on augmented reality. The information interaction method includes: generating first interactive data in response to an interactive operation of a first virtual target in a virtual reality space, and sending the first interactive data to a first server terminal; receiving second interactive data corresponding to a second virtual target sent by the first server terminal, wherein the second virtual target and the first virtual target share the virtual reality space; and calling a physical engine to render the interactive operations of the first virtual target and the second virtual target in the virtual reality space based on the first interactive data and the second interactive data, and generating and displaying an interactive rendering result.

Abstract: A new type of battery electrode plate preparation method is described. The method can include the following steps: a) a mixing process; b) a milling and polishing process; c) an extrusion shearing and extending process; d) cutting to obtain an electrode membrane; and e) pressing at a high temperature and a high pressure to obtain a battery electrode plate. The method can adopt the active material of different electrochemical batteries as the main body to prepare a thick type battery electrode plate with a high conductivity, a high capacity and a high active material loading, which has a viscoelastic body. The electrode plate can have a flexible organic network structure and an excellent mechanical strength, and can still exist in a variety of electrolytes after hundreds of times or even thousands of times of deep charge and discharge cycles.

Abstract: The present disclosure relates to a method for the preparation of graphene from coal as a raw material, and more particularly to a method for the preparation of microporous graphene from Chinese Zhundong coal. The process consists of the following steps: first, refining the coal block or coal particle to get fine powdered coal; second, immersing the powdered coal with activation agent solution and drying water to get molten mixture; third, carbonizing the molten mixture in an inert atmosphere and at a high temperature to obtain the carbonized product; fourth, successively acid washing, water-washing and drying the carbonized product to obtain the coal-based porous graphene with the surface area up to 3345 m2/g. The invention mainly solves the problems of the current method for the preparation of the microporous graphene with high specific surface area, including high cost of raw materials, complicated procedures and low yield.

Abstract: The invention concerns a high-performance tungsten-based super battery system, which relates to an integrated design and a construction method of a corresponding material, a structure and a process. In the technology, a tungsten-based material is used a negative electrode, and a high-specific-surface-area carbon or lead oxide is used as a positive electrode to assemble four types of super batteries comprising: 1) a tungsten-carbon super battery, 2) a tungsten-tungsten super battery, 3) a tungsten-lead oxide super battery, and 4) a super battery system of a hybridized tungsten super battery (comprising lead oxide, lead, and a carbon material) on which the foregoing two types of super batteries are hybridized in use. The introduction of the tungsten-based material endows a novel class of super batteries with higher power density, higher energy density, longer cycling life, high durability and reliable safety. This will enable a broad range of applications.

Abstract: A new type of battery electrode plate preparation method is described. The method can include the following steps: a) a mixing process; b) a milling and polishing process; c) an extrusion shearing and extending process; d) cutting to obtain an electrode membrane; and e) pressing at a high temperature and a high pressure to obtain a battery electrode plate. The method can adopt the active material of different electrochemical batteries as the main body to prepare a thick type battery electrode plate with a high conductivity, a high capacity and a high active material loading, which has a viscoelastic body. The electrode plate can have a flexible organic network structure and an excellent mechanical strength, and can still exist in a variety of electrolytes after hundreds of times or even thousands of times of deep charge and discharge cycles.

Abstract: A method for preparing a boron-doped porous carbon sphere, the method comprising the following steps: 1) dissolving a sugar carbon source and a boric acid in water at a certain proportion, mixing and stirring the mixture to obtain a transparent solution; 2) adding a silicon-based pore forming agent to form a precursor solution of a boron-doped porous carbon sphere; 3) spray drying (aerosol-assisted) the resulting precursor to obtain a solid precursor particle of the boron-doped carbon sphere; 4) pyrolyzing the resulting solid particle at a high temperature in an inert atmosphere to obtain a mixture in which a pore template SiO2 is embedded in a boron-doped carbon sphere; and 5) removing the silicon-based pore forming agent from the mixture and drying to obtain the boron-doped porous carbon sphere.

Abstract: The present invention discloses a method for preparing optically active carbonyl compound, comprising the following steps: under the catalysis of chiral amine salt and transition metal catalysts, with hydrogen and catalytic amount of dihydropyridine compound as hydrogen source, use ?, ?-unsaturated aldehydes or ?, ?-unsaturated troponoid compounds to conduct asymmetric catalytic reaction to obtain the optically active carbonyl compound. This method comes in moderate reaction condition, simple operation, and catalytic amount of dihydropyridine compounds usage, the target product is easy to be separated and purified from the reaction system, and the metal catalyst can be recycled, it is economical.

Abstract: The present invention discloses a metal complex catalyst, its preparing method and its application in preparing D,L-menthol, the metal complex catalyst includes weight percent elements as follows: 70-85% of Ni, 8-10% of Al, 5-10% of V, and 2-10% of Co. When this metal complex catalyst is applied in preparing D,L-menthol through thymol hydrogenation, it has the characteristics of high reaction activity and quick racemization of chiral compound. Meanwhile, a certain kind of alkali added in isomerization is the key to reducing light constituent byproduct. The whole process comes in good reaction selectivity, simple preparing technology, low production cost, and environment-friendly synthetic route.

Abstract: The present invention relates to the field of genetic engineering and hereditary engineering. The present invention discloses a ?-galactosidase (?-galactoside galactohydrolase, EC 3.2.1.23) mutant with high transglycosidase activity, which is obtained by single-site-saturation mutation of amino acid sequences of ?-galactosidase from Aspergillus candidus and Aspergillus oryzae, with own signal peptides removed. The transglycosidase activity of the mutant is over 15% higher than that of wild types. Meanwhile, the present invention also discloses a DNA molecule which encodes the mutant, a recombinant expression vector containing the DNA molecule, and a host cell expressing the DNA molecule. In addition, the present invention also provides a method for preparing ?-galactosidase mutant with high transglycosidase activity by using the recombinant expression vector and applications of the mutant, the DNA molecule, the recombinant expression vector and the host cell in preparation of ?-galactosidase.

Abstract: The object of the present invention is to provide a class of novel highly conductive doped oxides and their use as an electrode plate additive for batteries. With tungsten oxide or molybdenum oxide as the precursor, the controllable metal doping leads to the formation of highly conductive oxide materials with high hydrogen evolution and high oxygen evolution potential, and can be stable in the sulfuric acid solution. This material can be used as additive materials for the battery positive and negative electrodes and can effectively reduce the electrode internal resistance, improve the utilization efficiency of active materials, increase charge and discharge rate performance, stabilize the electrode structure and improve cycling life.

Abstract: The present disclosure relates to a method for the preparation of graphene from coal as a raw material, and more particularly to a method for the preparation of microporous graphene from Chinese Zhundong coal. The process consists of the following steps: first, refining the coal block or coal particle to get fine powdered coal; second, immersing the powdered coal with activation agent solution and drying water to get molten mixture; third, carbonizing the molten mixture in an inert atmosphere and at a high temperature to obtain the carbonized product; fourth, successively acid washing, water-washing and drying the carbonized product to obtain the coal-based porous graphene with the surface area up to 3345 m2/g. The invention mainly solves the problems of the current method for the preparation of the microporous graphene with high specific surface area, including high cost of raw materials, complicated procedures and low yield.

Abstract: The present invention discloses a metal complex catalyst, its preparing method and its application in preparing D,L-menthol, the metal complex catalyst includes weight percent elements as follows: 70-85% of Ni, 8-10% of Al, 5-10% of V, and 2-10% of Co. When this metal complex catalyst is applied in preparing D,L-menthol through thymol hydrogenation, it has the characteristics of high reaction activity and quick racemization of chiral compound. Meanwhile, a certain kind of alkali added in isomerization is the key to reducing light constituent byproduct. The whole process comes in good reaction selectivity, simple preparing technology, low production cost, and environment-friendly synthetic route.

Abstract: The present invention discloses a method for preparing optically active carbonyl compound, comprising the following steps: under the catalysis of chiral amine salt and transition metal catalysts, with hydrogen and catalytic amount of dihydropyridine compound as hydrogen source, use ?, ?-unsaturated aldehydes or ?, ?-unsaturated troponoid compounds to conduct asymmetric catalytic reaction to obtain the optically active carbonyl compound. This method comes in moderate reaction condition, simple operation, and catalytic amount of dihydropyridine compounds usage, the target product is easy to be separated and purified from the reaction system, and the metal catalyst can be recycled, it is economical.

Abstract: The present invention discloses a rapid diagnosis method of citrus huanglongbing. In the present invention, the accuracy of diagnosis of citrus huanglongbing is significantly improved in the following manners: eliminating the interference of residual starch by effectively removing the residual starch contained in the leaf; eliminating the interference of chlorophyll by effectively removing chlorophyll; and directly developing the color on the leaf rather than mixing and grinding the leaf in water, so as to avoid the problem that the accuracy of color development reaction conducted by mixing the leaf with water is liable to be interfered since the starch is insoluble in water. Therefore a rapid diagnosis of the citrus huanglongbing with much higher accuracy is achieved, which provides effective detection means for the control of the citrus huanglongbing and is beneficial for the control of the citrus huanglongbing.

Abstract: The present invention discloses a testing method for dynamic model parameters of a wind power plant, wherein under testing conditions including stable running of wind turbine generators and reactive-load compensation equipment, stable wind speed between a cut-in wind speed and a rated wind speed, and the wind power plant output smaller than a rated output, finishes a wind speed transient disturbance test, a wind power plant unit tripping and inputting disturbance test, a wind power plant power change test, a disturbance test for reactive-load compensation equipment of the wind power plant, a tripping disturbance test for hydroelectric power plant and thermal power plant near the wind power plant and a manual single-phase ground short circuit test at the outgoing line part of the wind power plant, and records running curves of the wind power plant under each condition to finish the parameter test.

Abstract: The present invention relates to the field of genetic engineering and hereditary engineering. The present invention discloses a ?-galactosidase (?-D-galactoside galactohydrolase, EC 3.2.1.23) mutant with high transglycosidase activity, which is obtained by single-site-saturation mutation of amino acid sequences of ?-galactosidase from Aspergillus candidus and Aspergillus oryzae, with own signal peptides removed. The transglycosidase activity of the mutant is over 15% higher than that of wild types. Meanwhile, the present invention also discloses a DNA molecule which encodes the mutant, a recombinant expression vector containing the DNA molecule, and a host cell expressing the DNA molecule. In addition, the present invention also provides a method for preparing ?-galactosidase mutant with high transglycosidase activity by using the recombinant expression vector and applications of the mutant, the DNA molecule, the recombinant expression vector and the host cell in preparation of ?-galactosidase.

Abstract: This invention concerns a tungsten-containing material, the application thereof and a preparation method thereof. Tungsten-containing materials can be used as electrochemical energy storage materials, fuel cell electrolytes and chemical catalyst materials. Tungsten-containing materials include tungsten oxide and tungsten oxide hydrate, doped tungsten oxides and doped tungsten oxide hydrates, tungsten oxide composites, and tungsten oxide hydrate composites.

Abstract: This disclosure describes a method for regenerating a semi-regenerated reforming catalyst. The method comprises adjusting the reaction temperature to 250-480° C., introducing a sulfur-containing naphtha into the reforming reactor, or stopping introducing a feedstock into the reforming reactor, and introducing a sulfur-containing hydrogen into a recycle gas, until the sulfur content in the catalyst is 0.32-0.8 mass %, then the catalyst is subject to coke-burning, oxychlorination and reduction. Alternatively, the method first subjects the spent catalyst to coke-burning followed by introducing sulfate ions thereinto; and then performing oxychlorination and reduction. Disclosed is still another method for regenerating a platinum-rhenium reforming catalyst, which comprises coke-burning the spent catalyst; introducing sulfur and chlorine in the catalyst by impregnation; and then drying, calcinating and reducing.

Abstract: A naphtha reforming catalyst, comprising an alumina support and following components with the content calculated on the basis of the support: VIII group metal 0.1-2.0% by weight, VIIB group metal 0.1-3.0% by weight, sulfate ion 0.45-3.0% by weight, and halogen 0.5-3.0% by weight. The catalyst is used in a naphtha reforming reaction without presulfurization and has a high aromatization activity and a selectivity.

Abstract: The invention concerns a high-performance tungsten-based super battery system, which relates to an integrated design and a construction method of a corresponding material, a structure and a process. In the technology, a tungsten-based material is used a negative electrode, and a high-specific-surface-area carbon or lead oxide is used as a positive electrode to assemble four types of super batteries comprising: 1) a tungsten-carbon super battery, 2) a tungsten-tungsten super battery, 3) a tungsten-lead oxide super battery, and 4) a super battery system of a hybridized tungsten super battery (comprising lead oxide, lead, and a carbon material) on which the foregoing two types of super batteries are hybridized in use. The introduction of the tungsten-based material endows a novel class of super batteries with higher power density, higher energy density, longer cycling life, high durability and reliable safety. This will enable a broad range of applications.