Abstract: A soft magnetic metal powder includes a coated particle having a soft magnetic metal particle and a coating layer coating a surface of the soft magnetic metal particle. The coating layer contains at least one compound selected from the group consisting of molybdenum disulfide, molybdenum oxide, boron nitride, mica, talc, pyrophyllite, and kaolinite.

Abstract: A coated soft magnetic alloy particle includes a soft magnetic alloy particle containing an amorphous phase, and a first film containing at least one compound selected from the group consisting of an inorganic compound having a hexagonal, trigonal, or monoclinic crystal structure and a layered silicate mineral. The first film coats a surface of the soft magnetic alloy particle, and an outer peripheral contour of a section of the coated soft magnetic alloy particle has an average smoothness ?_ave of 0.92 or more and 1.00 or less (i.e., from 0.92 or more and 1.00).

Abstract: A sintered body containing polycrystalline grains of a metal oxynitride containing at least two metal elements, wherein Ba and at least one metal element of a crystal phase of the sintered body are contained in a triple point that is not a void between the polycrystalline grains. A method for producing the sintered body includes sintering a mixture of at least a metal oxynitride as a main component and a sintering aid containing cyanamide in an atmosphere containing nitrogen or a rare gas or in a reduced-pressure atmosphere of 10 Pa or less while applying a mechanical pressure with a retention time at a maximum heating temperature during the sintering set to 1 minute to 10 minutes.

Abstract: In an ultrafine ZnO particle dispersion, ultrafine ZnO particles are dispersed and float in a hydrophobic solvent while being surrounded by a surfactant composed of a primary surfactants such as polyoxyethylene nonylphenyl ether, and a secondary surfactant such as 1-octanol. The ultrafine ZnO particles have an average particle diameter D50 of 10 nm or less and a ratio of the standard deviation ? to the average particle diameter D50, ?/D50, of 0.2 or less. The average particle diameter D50 of the ultrafine ZnO particles can be controlled by changing the side chain length of the hydrophilic group of the primary surfactant. A ZnO thin film produced by using this dispersion solution has a ratio of a maximum emission intensity in a visible region to a maximum emission intensity in a ultraviolet region, P1/P2, of 0.2 or less.

Abstract: In an ultrafine ZnO particle dispersion, ultrafine ZnO particles are dispersed and float in a hydrophobic solvent while being surrounded by a surfactant composed of a primary surfactants such as polyoxyethylene nonylphenyl ether, and a secondary surfactant such as 1-octanol. The ultrafine ZnO particles have an average particle diameter D50 of 10 nm or less and a ratio of the standard deviation ? to the average particle diameter D50, ?/D50, of 0.2 or less. The average particle diameter D50 of the ultrafine ZnO particles can be controlled by changing the side chain length of the hydrophilic group of the primary surfactant. A ZnO thin film produced by using this dispersion solution has a ratio of a maximum emission intensity in a visible region to a maximum emission intensity in a ultraviolet region, P1/P2, of 0.2 or less.