Abstract:
An optical filter includes a non-crystalline film, a protective coating layer on one side of the non-crystalline film, and a print layer on another side of the non-crystalline film, the other side being opposite to the one side, wherein the print layer is secured to a substrate.
Abstract:
Disclosed herein is an intravascular device for removing thrombosis and recovering a blood flow, wherein the attachment of thrombosis can be facilitated since a plurality of minute protrusions are formed on the surface of the stent structure. The present inventive concept is able to significantly minimize any separation of the thrombosis when the device for removing thrombosis and recovering a blood flow is transferred to the outside of a human body in such a way that a plurality of minute protrusions are formed on the surface of the stent structure, and the attachment of the thrombosis to the stent can be facilitated.
Abstract:
Disclosed is a gas hydrate reactor including a supply line for supplying water and gas, a thermoelectric module assembly, a front panel including an observation window, and a housing to which the thermoelectric module assembly and the front panel are attached and into which water and gas are supplied using the supply line so that a gas hydrate is formed therein. This reactor enables rapid and precise temperature control, thus allowing accurate data about properties to be easily acquired in kinetics, phase equilibrium, morphology and microscopic (Raman, XRD, etc.) research of a gas hydrate, thereby leading to the discovery of a gas hydrate production/decomposition mechanism and ensuring important information necessary for a gas hydrate application process.
Abstract:
Disclosed herein is an intravascular device for removing thrombosis and recovering a blood flow, wherein the attachment of thrombosis can be facilitated since a plurality of minute protrusions are formed on the surface of the stent structure. The present inventive concept is able to significantly minimize any separation of the thrombosis when the device for removing thrombosis and recovering a blood flow is transferred to the outside of a human body in such a way that a plurality of minute protrusions are formed on the surface of the stent structure, and the attachment of the thrombosis to the stent can be facilitated.
Abstract:
A coating composition for forming a low-refractive-index layer includes a first fluorine compound represented by Formula 1 below, (CH2═CR1COO)2Rf Formula 1 and a reactive silicon compound, a (meth)acrylate compound, a polymerization initiator, and a solvent. The first fluorine compound represented by Formula 1, the reactive silicon compound, the (meth)acrylate compound, the polymerization initiator, and the solvent may each be different from one another, and in Formula 1, Rf may be a C1-19 perfluoro group, and R1 may be a hydrogen atom or a methyl group.
Abstract translation:用于形成低折射率层的涂料组合物包括由下式1表示的第一氟化合物,(CH 2 = CR 1 COO)2 R f 1和反应性硅化合物,(甲基)丙烯酸酯化合物,聚合引发剂和溶剂 。 由式1表示的第一氟化合物,反应性硅化合物,(甲基)丙烯酸酯化合物,聚合引发剂和溶剂可以彼此不同,在式1中,Rf可以是C1-19全氟基 ,R 1可以是氢原子或甲基。
Abstract:
A coating composition for forming a low-refractive-index layer includes a first fluorine compound represented by Formula 1 below, (CH2═CR1COO)2Rf Formula 1 and a reactive silicon compound, a (meth)acrylate compound, a polymerization initiator, and a solvent. The first fluorine compound represented by Formula 1, the reactive silicon compound, the (meth)acrylate compound, the polymerization initiator, and the solvent may each be different from one another, and in Formula 1, Rf may be a C1-19 perfluoro group, and R1 may be a hydrogen atom or a methyl group.
Abstract:
An anti-reflection film including a plastic transparent substrate, a low refractive index layer, and a high refractive index hard coating layer, wherein the high refractive index hard coating layer includes an inorganic oxide including Ga doped ZnO particles in a polymer matrix.