The present invention provides an ultrafine modified hydromagnesite powder, and a preparation method and application thereof. The preparation method comprises the following steps: drying ultrafine hydromagnesite, then adding a certain amount of organic dispersion reagent, isocyanate compound and catalyst, stirring at a certain temperature for a period of time, filtering, washing and drying to obtain powder 1; taking the powder 1, a certain amount of organic dispersion reagent and fatty amine, stirring at a certain temperature for a period of time, filtering, washing and drying to obtain the ultrafine modified hydromagnesite powder. The powder is mixed with polyethylene and an auxiliary agent, and extruded for granulation at 160-200 C. to obtain polyethylene composite material. The material has excellent tensile strength and flame retardant property.

The present invention provides an ultrafine modified hydromagnesite powder, and a preparation method and application thereof. The preparation method comprises the following steps: drying ultrafine hydromagnesite, then adding a certain amount of organic dispersion reagent, isocyanate compound and catalyst, stirring at a certain temperature for a period of time, filtering, washing and drying to obtain powder 1; taking the powder 1, a certain amount of organic dispersion reagent and fatty amine, stirring at a certain temperature for a period of time, filtering, washing and drying to obtain the ultrafine modified hydromagnesite powder. The powder is mixed with polyethylene and an auxiliary agent, and extruded for granulation at 160-200 C. to obtain polyethylene composite material. The material has excellent tensile strength and flame retardant property.

A material for producing macromolecule air fibers, a preparation method, and an application thereof are provided. The material for producing macromolecule air fiber is prepared by preparation of doped antibacterial TiO.sub.2/ZnO/ZrO.sub.2 ceramic powder, deposition of magnetic iron oxide, surface modification with tannic acid, addition of water-soluble chitosan solution, immersion in a spined TPEE air fiber membrane, uniform addition of Genipin solution, heating and reacting, membrane removal, washing, and drying. The TPEE air fiber membrane produced by the present disclosure has good mechanical properties, and modified ceramic powder is uniformly dispersed in the TPEE air fiber membrane, which plays a good role in antibacterial, environmental protection, immune regulation, magnetic therapy, far-infrared heating and other effects, rendering the material for producing macromolecule air fibers have better comprehensive performance and a good mattress support material with broad application prospects.

The present invention provides an alumina particle containing molybdenum (Mo) and an inorganic coating part provided on the surface of the alumina particle.

An electrode including: a conductive film which contains: a layered material having one or plural layers of particles of a layer body represented by: M.sub.mX.sub.n (M is at least one metal of Group 3, 4, 5, 6, or 7, X is a carbon atom, a nitrogen atom, or a combination thereof, n is not less than 1 and not more than 4, and m is more than n but not more than 5), and a modifier or terminal T existing on a surface of the layer body, (T is at least one selected from a hydroxyl group, a fluorine atom, a chlorine atom, an oxygen atom, and a hydrogen atom); and a -electron conjugated compound attached to the particles and having at least one selected from the group consisting of an aromatic ring, a heteroaromatic ring, a conjugated diene unit, an allyl group, and a vinyl group.

A method for increasing the specific surface area of titanium phosphate plate-shaped particles of this invention includes: obtaining a liquid in a state where a powder containing titanium phosphate plate-shaped particles is dispersed in an aqueous alkaline solution.