Abstract: The present invention relates to a method of forming a coating layer having plasma resistance, the method comprising steps of: preparing a substrate by placing the substrate in a substrate fixing device inside a process chamber; evaporating a Y2O3 deposition material provided in a solid form in an electron beam source by irradiating an electron beam on the Y2O3 deposition material; generating radical particles having activation energy by injecting a process gas containing oxygen for forming radicals into a RF energy beam source; irradiating an RF energy beam including the radical particles generated in the RF energy beam source, toward the substrate; depositing a thin film in which the evaporated deposition material is deposited on the substrate by being assisted by the RF energy beam, and densifying the thin film in which the deposition material deposited on the substrate forms a densified film by ion bombardment of the RF energy beam.

Abstract: A microelectrode assembly for in vivo neurotransmitter monitoring according to one embodiment of the present disclosure includes: a microelectrode part formed of a single strand; and a polymer coating layer surrounding the microelectrode part, wherein a portion of the microelectrode part may protrude from the polymer coating layer, neurotransmitters in vivo may be sensed by the protruding portion of the microelectrode part, and plasmonic nanostructures may be formed on the surface of the microelectrode part.

Abstract: The present invention relates to a method of forming a coating layer of which a composition can be controlled, the method comprising steps of: preparing a substrate inside a chamber; evaporating a deposition material to generate YF3 or YOF particles in a gas phase by irradiating an electron beam on a YF3 deposition material provided in a solid form in an electron beam source; generating radical particles having activation energy by injecting a process gas containing oxygen into a RF energy beam source; irradiating an RF energy beam including oxygen radical particles toward the substrate; controlling a composition of a thin film by generating YOF deposition particles having a modified atomic ratio by adjusting an amount of fluorine substitution by oxygen as the YF3 or YOF particles and the oxygen radical particles react, and depositing the YOF deposition particles on the substrate with the RF energy beam.

Abstract: The present invention relates to a method of forming a coating layer having plasma resistance, the method comprising steps of: preparing a substrate by placing the substrate in a substrate fixing device inside a process chamber; evaporating a Y2O3 deposition material provided in a solid form in an electron beam source by irradiating an electron beam on the Y2O3 deposition material; generating radical particles having activation energy by injecting a process gas containing oxygen for forming radicals into a RF energy beam source; irradiating an RF energy beam including the radical particles generated in the RF energy beam source, toward the substrate; depositing a thin film in which the evaporated deposition material is deposited on the substrate by being assisted by the RF energy beam, and densifying the thin film in which the deposition material deposited on the substrate forms a densified film by ion bombardment of the RF energy beam.

Abstract: The present invention relates to a method of forming a coating layer of which a composition can be controlled, the method comprising steps of: preparing a substrate inside a chamber; evaporating a deposition material to generate YF3 or YOF particles in a gas phase by irradiating an electron beam on a YF3 deposition material provided in a solid form in an electron beam source; generating radical particles having activation energy by injecting a process gas containing oxygen into a RF energy beam source; irradiating an RF energy beam including oxygen radical particles toward the substrate; controlling a composition of a thin film by generating YOF deposition particles having a modified atomic ratio by adjusting an amount of fluorine substitution by oxygen as the YF3 or YOF particles and the oxygen radical particles react, and depositing the YOF deposition particles on the substrate with the RF energy beam.

Abstract: Provided are an anisotropic conductive film, a display device including the same and/or a semiconductor device including the same, the film comprising a conductive layer, wherein the conductive layer is formed of a conductive layer composition containing conductive particles, the conductive particles have a saturation magnetization value and specific gravity satisfying following formulae (1) and (2): (1) about 10 emu/g?saturation magnetization value?about 20 emu/g; and (2) about 2.8?specific gravity?about 3.2.

Abstract: A microelectrode assembly for in vivo neurotransmitter monitoring according to one embodiment of the present disclosure includes: a microelectrode part formed of a single strand; and a polymer coating layer surrounding the microelectrode part, wherein a portion of the microelectrode part may protrude from the polymer coating layer, neurotransmitters in vivo may be sensed by the protruding portion of the microelectrode part, and plasmonic nanostructures may be formed on the surface of the microelectrode part.

Abstract: A deep brain stimulation apparatus according to the present disclosure includes: a stimulator for applying electrical stimulation to a brain; a light source for providing light to the brain; plasmonic nano-particles which, when the brain releases a neurotransmitter as a result of the electrical stimulation, come into contact with the neurotransmitter to enable surface-enhanced Raman scattering (SERS); a photodetector which includes the plasmonic nano-particles and, when the light from the light source is scattered by the neurotransmitter which has come into contact with the plasmonic nano-particles, detects the scattered light; a signal processing analyzer for converting a light signal from the photodetector to an electric signal; and a controller for receiving an analysis signal from the signal processing analyzer to control the stimulator.

Abstract: An anisotropic conductive film composition, an anisotropic conductive film prepared using the same, and a connection structure using the same, the anisotropic conductive film including a binder resin; a curable alicyclic epoxy compound; a curable oxetane compound; a quaternary ammonium catalyst; and conductive particles, wherein the anisotropic conductive film has a heat quantity variation rate of about 15% or less, as measured by differential scanning calorimetry (DSC) and calculated by Equation 1: Heat quantity variation rate (%)=[(H0?H1)/H0]×100??Equation 1 wherein H0 is a DSC heat quantity of the anisotropic conductive film, as measured at 25° C. and a time point of 0 hr, and H1 is a DSC heat quantity of the anisotropic conductive film, as measured after being left at 40° C. for 24 hours.

Abstract: An apparatus for generating 3-dimensional (3D) volume mask model and a method therefor. The apparatus includes a 2D mask data collector, a 3D mask model generator, and a 3D mask model adjuster, whereby 2D mask data is generated from a 2D mask image designed by a user, a 2D mask mesh is created based on inner and outer contour feature points, a 2D mask is transformed into a 3D model according to the user's settings, and the generated 3D mask model is modified to fit on a facial shape of a person who will wear the mask, and a 3D mask volume model is generated, which is immediately printed by a 3D printer to produce a 3D mask.

Abstract: A display device connected by an anisotropic conductive film, wherein the anisotropic conductive film includes conductive particles and has a minimum melt viscosity of 900 Pa·s to 90,000 Pa·s at 80° C. to 140° C.

Abstract: The present invention relates to a device and a method for simulating 3D printing and more particularly, to a simulation technology which is able for a producer or a user to predict and correct a 3D model through previews shown when the 3D model displayed in a monitor is outputted by a 3D printer.

Abstract: An apparatus for generating 3-dimensional (3D) volume mask model and a method therefor. The apparatus includes a 2D mask data collector, a 3D mask model generator, and a 3D mask model adjuster, whereby 2D mask data is generated from a 2D mask image designed by a user, a 2D mask mesh is created based on inner and outer contour feature points, a 2D mask is transformed into a 3D model according to the user's settings, and the generated 3D mask model is modified to fit on a facial shape of a person who will wear the mask, and a 3D mask volume model is generated, which is immediately printed by a 3D printer to produce a 3D mask.

Abstract: An anisotropic conductive film composition, an anisotropic conductive film prepared using the same, and a connection structure using the same, the anisotropic conductive film including a binder resin; a curable alicyclic epoxy compound; a curable oxetane compound; a quaternary ammonium catalyst; and conductive particles, wherein the anisotropic conductive film has a heat quantity variation rate of about 15% or less, as measured by differential scanning calorimetry (DSC) and calculated by Equation 1: Heat quantity variation rate (%)=[(H0?H1)/H0]×100??Equation 1 wherein H0 is a DSC heat quantity of the anisotropic conductive film, as measured at 25° C. and a time point of 0 hr, and H1 is a DSC heat quantity of the anisotropic conductive film, as measured after being left at 40° C. for 24 hours.

Abstract: An assembly simulation apparatus and method for a wooden structure are provided. The assembly simulation apparatus for a wooden structure includes an element analysis unit for analyzing shapes of a plurality of elements constituting a three-dimensional (3D) wooden structure model and a coupling relation between the elements. A relation graph generation unit generates a relation graph based on the analyzed shapes of the plurality of elements and the analyzed coupling relation between the elements. An animation creation unit creates an animation of a movement path depending on a task for coupling or separating the plurality of elements, based on the generated relation graph. An animation play unit simulates an assembly method for the wooden structure by playing the created animation depending on the assembly method for the wooden structure.

Abstract: An anisotropic conductive film includes a conductive adhesive layer including conductive particles and insulating particles, and an insulating adhesive layer not including conductive particles. In the anisotropic conductive film, the conductive particles and the insulating particles of the conductive adhesive layer have a total particle density of 7.0×105/d2 to 10.0×105/d2 (particles) per square millimeter (mm2) (where d is a diameter of the conductive particles in ?m).

Abstract: The present invention relates to a device and a method for simulating 3D printing and more particularly, to a simulation technology which is able for a producer or a user to predict and correct a 3D model through previews shown when the 3D model displayed in a monitor is outputted by a 3D printer.

Abstract: The present disclosure relates to a device and a method for verifying support of 3D printing and more particularly, to a device and a method for verifying whether a support is formed properly for printing through a 3D printer.

Abstract: An apparatus and method for producing a makeup avatar is disclosed. The apparatus may include a spectrum information metadata generating unit to generate spectrum information metadata, based on skin spectrum information of a user and cosmetics spectrum information related to makeup, a makeup information generating unit to receive, from the user, a makeup avatar to which makeup is applied through a user terminal, and to generate makeup information of the makeup avatar, a control information determining unit to determine control information for controlling a makeup status of the makeup avatar, based on the makeup information and the spectrum information metadata, and a makeup avatar metadata generating unit to generate makeup avatar metadata, based on spectrum information metadata corresponding to the control information and the makeup information.

Abstract: A coil component capable of easily securing insulation between external connection terminals and a core at the time of being manufactured at a small size. To this end, the coil component includes: a bobbin including a winding part having a coil wound therein and a terminal coupling part having at least one external connection terminal coupled thereto, the at least one external connection terminal having a lead wire of the coil connected thereto; and a core coupled to the bobbin and electromagnetically coupled to the coil, wherein the bobbin includes at least one spacing block protruding between the external connection terminal and the core and extending a creepage distance between the external connection terminal and the core.