Abstract: A carbon fiber composite including: carbon fiber; and silicon carbide coated on the surface of the carbon fiber, and a production method of the same are provided. The carbon fiber composite may reduce weight, implement an outstanding heat-dissipating efficiency by using high thermal conductivity, and be used in various ways in electronic products and the like where heat-dissipating characteristics are required.

Abstract: A carbon fiber composite including: carbon fiber; and silicon carbide coated on the surface of the carbon fiber, and a production method of the same are provided. The carbon fiber composite may reduce weight, implement an outstanding heat-dissipating efficiency by using high thermal conductivity, and be used in various ways in electronic products and the like where heat-dissipating characteristics are required.

Abstract: The present invention relates to an organic-inorganic nanocomposite having orientation and a polymer resin comprising the same. An organic-inorganic nanocomposite according to the present invention includes inorganic nanoparticles each having one or more hydrogen bondable functional groups; first organic compounds each having two or more hydrogen bondable functional groups and one or more aromatic groups; and second organic compounds each having one or more hydrogen bondable functional groups and one or more aromatic groups, wherein the inorganic nanoparticle, the first organic compound and the second organic compound are bonded sequentially through hydrogen bonds, and the hydrogen-bonded inorganic nanoparticle, first organic compound and second organic compound, are laminated through ?-? interaction to have orientation.

Abstract: The present invention relates to a high strength organic/inorganic composite using plate-shaped inorganic particles and to a method for preparing the same. The organic/inorganic composite of the present invention comprises a polymer and inorganic particles uniformly arranged into a matrix structure in said polymer. A mineral bridge is formed between the inorganic particles. According to the present invention, plate-shaped inorganic particles are uniformly distributed in the polymer to improve the filling rate of inorganic particles, and a mineral bridge is formed between the inorganic particles to provide a high strength and lightweight organic/inorganic composite. The organic/inorganic composite of the present invention may be widely used in high value-added industry such as an aerospace industry, space industry, car industry, energy industry, environmental industry, defense industry and construction industry.

Abstract: Disclosed are a method of manufacturing magnesium oxide nanoparticles and a method of manufacturing a magnesium oxide nanosol, which can prepare magnesium oxide particles having a size of tens of nanometers with high yield by using a simple, low-cost process. The methods of manufacturing magnesium oxide nanoparticles and manufacturing magnesium oxide nanosol include preparing a magnesium salt solution by dissolving a magnesium salt in a solvent; impregnating an organic polymer comprising a nanosized pore with the magnesium salt solution; and heating the organic polymer impregnated with the magnesium salt solution until the organic polymer is fired.