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    • 4. 发明公开
    • 이산화티타늄 나노구조체의 제조방법
    • 制备二氧化钛纳米结构的方法
    • KR1020140048443A
    • 2014-04-24
    • KR1020120114080
    • 2012-10-15
    • 강릉원주대학교산학협력단
    • 박상엽하성용방희곤이하늘
    • C01G23/053B82B3/00
    • Provided is a method of fabricating a nanostructure of titanium dioxide to enable cost-efficient and safe mass-production through a simple process. The method of fabricating a nanostructure of titanium dioxide comprises: a step of providing an aqueous solution containing titanium dioxide and potassium hydroxide; a step of forming titanium dioxide nanoparticles by irradiating the aqueous solution with microwaves. [Reference numerals] (S100) Provide an aqueous solution containing titanium dioxide and potassium hydroxide; (S200) Form titanium dioxide nanoparticles by irradiating the aqueous solution with microwaves
    • 提供了一种制造二氧化钛纳米结构的方法,以通过简单的工艺实现经济高效和安全的批量生产。 制备二氧化钛纳米结构的方法包括:提供含有二氧化钛和氢氧化钾的水溶液的步骤; 通过用微波照射水溶液来形成二氧化钛纳米颗粒的步骤。 (附图标记)(S100)提供含有二氧化钛和氢氧化钾的水溶液; (S200)通过用微波照射水溶液来形成二氧化钛纳米颗粒
    • 5. 发明公开
    • 다공성 코디어라이트/지르코니아 세라믹 허니컴 제조방법
    • CORDIERITE / ZIRCONIA CERAMIC HONEYCOMB及其制造方法
    • KR1020080111687A
    • 2008-12-24
    • KR1020070059948
    • 2007-06-19
    • 강릉원주대학교산학협력단
    • 박상엽송준호방희곤김성진박성진
    • B01D39/00B01D53/00
    • A method for manufacturing a porosity cordierite/zirconia ceramic honeycomb is provided to contain zirconia in order to promote a mechanical property and to have an excellent porous characteristic and an excellent mechanical property by adding graphite as a pore-forming agent. A method for manufacturing a porosity cordierite/zirconia ceramic honeycomb comprises steps of: obtaining a mixture by mixing quantitively zirconia powder for promoting a mechanical property in the cordierite powder, graphite powder which is a pore-forming agent and an additive for molding aid(S100); kneading the mixture(S110); manufacturing the honeycomb form by extrusion-molding the mixture (S120); and completing the ceramic honeycomb by plasticizing and drying the honeycomb form(S130).
    • 提供一种制造孔隙堇青石/氧化锆陶瓷蜂窝体的方法,以通过添加石墨作为成孔剂来提高机械性能并具有优异的多孔特性和优异的机械性能。 制备孔隙堇青石/氧化锆陶瓷蜂窝体的方法包括以下步骤:通过定量混合氧化锆粉末以促进堇青石粉末中的机械性能,作为成孔剂的石墨粉末和助模剂用添加剂(S100 ); 捏合混合物(S110); 通过挤出成型混合物制造蜂窝体(S120); 并通过塑化和干燥蜂窝体形成陶瓷蜂窝体(S130)。
    • 9. 发明公开
    • 반도체 화합물의 제조방법
    • 制备半导体化合物的方法
    • KR1020140049159A
    • 2014-04-25
    • KR1020120114629
    • 2012-10-16
    • 강릉원주대학교산학협력단
    • 박상엽하성용방희곤정래영온진호
    • H01B1/00H01L21/26
    • In order to realize a method for manufacturing a semiconductor compound which can replace titanium dioxide and has superior physical properties rapidly and safely obtained in operational processes, and a material manufactured thereby, the present invention provides the method for manufacturing the semiconductor compound. The method includes a step of providing a mixed solution of titanium dioxide, a cadmium precursor, 3-mercaptopropionic acid, and water and a step of forming a semiconductor compound combined with titanium dioxide and cadmium sulfide by irradiating the mixed solution with microwaves. [Reference numerals] (S100) Step of providing a titanium dioxide aqueous solution; (S200) Step of forming a cadmium dithiol complex; (S300) Step of manufacturing a mixed solution between the cadmium dithiol complex and the titanium dioxide aqueous solution; (S400) Step of irradiating the mixed solution with microwaves; (S500) Step of obtaining and drying determined nanocrystal in which cadmium sulfide and titanium dioxide are combined
    • 为了实现可以替代二氧化钛并且在操作过程中快速安全地获得的物理性能优异的半导体化合物的制造方法以及由此制造的材料,本发明提供了半导体化合物的制造方法。 该方法包括提供二氧化钛,镉前体,3-巯基丙酸和水的混合溶液的步骤,以及通过用微波照射混合溶液形成与二氧化钛和硫化镉组合的半导体化合物的步骤。 (附图标记)(S100)提供二氧化钛水溶液的步骤; (S200)形成镉二硫醇复合物的工序; (S300)在二硫化镉复合物和二氧化钛水溶液之间制造混合溶液的工序; (S400)用微波照射混合溶液的步骤; (S500)合并硫化镉和二氧化钛的确定的纳米晶体的获得和干燥步骤
    • 10. 发明公开
    • 산화수산화니켈-탄소나노튜브 나노복합체 전극의 제조 방법
    • 多壁碳纳米管纳米复合材料中充电储存方法
    • KR1020130047885A
    • 2013-05-09
    • KR1020110112692
    • 2011-11-01
    • 강릉원주대학교산학협력단
    • 박상엽김성진박건준정준기
    • H01G9/058H01G9/042
    • Y02E60/13H01G11/86H01G11/34H01G11/36
    • PURPOSE: A method for fabricating an NiOOH-carbon nanotube nano composite electrode is provided to be used for super capacitor with high energy density and power density. CONSTITUTION: A method for fabricating NiOOH-carbon nanotube nano composite electrode comprises the steps of: producing nickel hydroxide(Ni(NO3)2-6H2O) liquid solution having a temperature between 20 and 30°C(S1); dispersing and drying the liquid solution after dipping a carbon nanotube having a porous structure in the liquid solution(S2); heat-treating nickel hydroxide and carbon nanotube composite produced in the previous step at a temperature of 200 to 250°C(S3). [Reference numerals] (S1) Produce nickel hydroxide(Ni(NO3)2·6H2O) liquid solution with a temperature of 20-30°C; (S2) Disperse and dry the nickel hydroxide(Ni(NO3)2·6H2O) liquid solution after dipping a carbon nanotube having a porous structure in the liquid solution; (S3) Heat-treat the mixture of the nickel hydroxide(Ni(NO3)2·6H2O) and the carbon nanotube at a temperature of 200-250°C; (S4) Manufacture an electrode by mixing with an active material, a binder, and a solvent
    • 目的:提供一种制备NiOOH-碳纳米管纳米复合电极的方法,用于具有高能量密度和功率密度的超级电容器。 构成:制造NiOOH-碳纳米管纳米复合电极的方法包括以下步骤:制备温度在20至30℃(S1)之间的氢氧化镍(Ni(NO 3)2·6H 2 O)液体溶液; 在液体溶液中浸渍具有多孔结构的碳纳米管之后分散和干燥液体(S2); 在上述步骤中,在200-250℃的温度下制备热处理氢氧化镍和碳纳米管复合物(S3)。 (附图标记)(S1)在20-30℃的温度下生成氢氧化镍(Ni(NO 3)2·6H 2 O)液体溶液; (S2)在液体溶液中浸渍具有多孔结构的碳纳米管后,分散并干燥氢氧化镍(Ni(NO 3)2·6H 2 O)液体溶液; (S3)在200-250℃的温度下热处理氢氧化镍(Ni(NO 3)2·6H 2 O)和碳纳米管的混合物; (S4)通过与活性物质,粘合剂和溶剂混合制造电极