Abstract: The present invention relates to a pain relief composition comprising paramagnetic silver nanoparticles. More specifically, the composition is characterized in that it comprises from 0.03 to 0.05% by weight of paramagnetic silver nanoparticles having specific properties that were not revealed by conventional diamagnetic silver nanoparticles. The pain relief composition according to the present invention shows excellent effect of relieving pain of arthritis due to antibiotic property and anti-toxicity of paramagnetic silver nanoparticles. By using the paramagnetic silver nanoparticles having small particle size, the composition is rapidly absorbed into cells upon being applied to skin. In addition, by virtue of using silver (Ag), no complication such as skin coloration or edema was observed. According to the present invention, pain is relieved by simple application, so that the usage is easy as compared to surgical treatment such as arthroscopic operation to provide high satisfaction to a patient.

Abstract: The present invention relates to a pain relief composition comprising paramagnetic silver nanoparticles. More specifically, the composition is characterized in that it comprises from 0.03 to 0.05% by weight of paramagnetic silver nanoparticles having specific properties that were not revealed by conventional diamagnetic silver nanoparticles. The pain relief composition according to the present invention shows excellent effect of relieving pain of arthritis due to antibiotic property and anti-toxicity of paramagnetic silver nanoparticles. By using the paramagnetic silver nanoparticles having small particle size, the composition is rapidly absorbed into cells upon being applied to skin. In addition, by virtue of using silver (Ag), no complication such as skin coloration or edema was observed. According to the present invention, pain is relieved by simple application, so that the usage is easy as compared to surgical treatment such as arthroscopic operation to provide high satisfaction to a patient.

Abstract: Disclosed herein is a nano-powder extraction apparatus using the rotation of a hollow impeller, which is configured to extract nano-powder according to particle size thereof by effectively dissolving the nano-powder contained in plasma gas into a surfactant solution, and to prevent the aggregation of nano-powder as the nano-powder is absorbed in and collected by a surfactant of solution, thereby enabling the application of strongly reactive materials.

Abstract: Disclosed herein is a high-frequency induction plasma reactor apparatus for producing nano-powder, which is configured to continuously manufacture nano-powder in large quantities using solid-phase powder as a starting raw material and to manufacture high-purity nano-powder by completely vaporizing the material powder. The high-frequency induction plasma reactor apparatus comprises an upper body and a cover. The upper body is provided with a reaction pipe receiving a reactor extending vertically inside thereof, a high-frequency coil surrounding the outer periphery of the reaction pipe and a ceramic inner wall provided inside the reaction pipe. The ceramic inner wall is formed with a plurality of gas passing bores and defines a gas movement passage with the inner side wall of the reaction pipe therebetween for allowing the inflow of argon gas from the outside into the reactor. The cover is mounted to the upper end of the reactor and adapted to seal the reactor.

Abstract: The present invention is related to gold or silver powder characterized by having paramagnetism. The gold or silver powder according to the present invention is a paramagnetic gold or silver powder having magnetism in the same direction as that of the external magnetic field in all temperature ranges. The paramagnetic gold or silver powder according to the present invention shows an extremely small coercive force, has no surface oxidation layers, is stable at a room temperature, has no cohesive property, and is highly dispersible.