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公开(公告)号:KR100915708B1
公开(公告)日:2009-09-04
申请号:KR1020070088683
申请日:2007-08-31
Applicant: 한국기계연구원
IPC: H05B3/84
CPC classification number: H05B3/84 , H05B2203/013 , H05B2214/04 , Y10T29/49002
Abstract: 본 발명에 따른 도전성 박막과 전극을 구비한 발열기판은, 투명 기판, 상기 기판의 한쪽 면에 형성되는 복수 개의 구역으로 분할된 도전성 박막 및 상기 도전성 박막의 복수 개의 구역이 전기적으로 병렬 연결되도록 상기 투명기판상에 형성되고, 상기 도전성 박막보다 표면저항이 낮은 금속 전극을 포함한다.
아울러, 본 발명의 실시예에 따른 도전성 박막과 전극을 구비한 발열기판을 제조하는 방법은, 기판 위에 도전성 박막을 형성하는 도전성 박막 형성단계, 상기 도전성 박막의 가장자리와 인접하여 상기 기판 위에 신장되어 메인전극을 형성하는 메인전극 형성단계 및 상기 메인전극에서 연장되고 상기 도전성 박막에 접하여 상기 도전성 박막의 일측을 가로질러 가지전극을 형성하는 가지전극 형성단계를 포함한다.-
公开(公告)号:KR1020090022959A
公开(公告)日:2009-03-04
申请号:KR1020070088683
申请日:2007-08-31
Applicant: 한국기계연구원
IPC: H05B3/84
CPC classification number: H05B3/84 , H05B2203/013 , H05B2214/04 , Y10T29/49002
Abstract: A heating substrate and a manufacturing method thereof are provided to uniformly maintain heating performance of a conductive thin film by regularly forming width between branch electrodes formed on the conductive thin film. A heating substrate comprises a transparent substrate(100), a conductive film(105), a first main electrode(110), a second main electrode(115), a first branch electrode(120a), and a second branch electrode(120b). The conductive thin film is formed on one surface of the substrate, and is divided into a plurality of regions. The first main electrode and the second electrode are formed on the substrate. The first main electrode is adjacent to a first edge of the conductive thin film. The second main electrode is adjacent to a second edge of the conductive thin film. The first edge is faced with the second edge. The first branch electrode crosses one side of the conductive thin film from the first main electrode, and is extended to a second main electrode direction. The second branch electrode is extended from the second main electrode, and corresponds to the first branch electrode.
Abstract translation: 提供加热基板及其制造方法,通过规则地形成导电薄膜上形成的分支电极之间的宽度来均匀地保持导电薄膜的加热性能。 加热基板包括透明基板(100),导电膜(105),第一主电极(110),第二主电极(115),第一分支电极(120a)和第二分支电极(120b) 。 导电薄膜形成在基板的一个表面上,并分成多个区域。 第一主电极和第二电极形成在基板上。 第一主电极与导电薄膜的第一边缘相邻。 第二主电极与导电薄膜的第二边缘相邻。 第一个边缘面临着第二个边缘。 第一分支电极从第一主电极与导电薄膜的一侧相交,并延伸到第二主电极方向。 第二分支电极从第二主电极延伸,并且对应于第一分支电极。
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公开(公告)号:KR100880005B1
公开(公告)日:2009-01-22
申请号:KR1020070096634
申请日:2007-09-21
Abstract: An SAR micromixer having chaotic mixing is provided to allow the separation and the mixing to be carried out repeatedly, thereby improving the mixing efficiency of two fluids. An SAR micromixer having chaotic mixing comprises an input hole, a mixture channel part and an output hole to mix different fluids, wherein the mixture channel part comprises first and second channel plates(20a, 20b) which have a center penetration hole(21) and a channel penetration hole(22) formed radially; a first partition(30a) installed to be in contact with the first channel plate and having a penetration hole at the center; and a second partition(30b) installed to be in contact with the second channel plate and having an outer penetration hole(32) at the part in contact wit the outermost side of the second plate channel penetration hole.
Abstract translation: 提供了具有混沌混合的SAR微混合器,可以重复进行分离和混合,从而提高两种流体的混合效率。 具有混沌混合的SAR微混合器包括输入孔,混合通道部分和用于混合不同流体的输出孔,其中混合通道部分包括具有中心穿透孔(21)的第一和第二通道板(20a,20b)和 径向形成的通道贯通孔(22) 安装成与第一通道板接触并在中心具有穿透孔的第一隔板(30a) 和与第二通道板接触并且在与第二板状通道贯通孔的最外侧接触的部分具有外部贯通孔(32)的第二隔板(30b)。
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公开(公告)号:KR100867402B1
公开(公告)日:2008-11-06
申请号:KR1020070055053
申请日:2007-06-05
CPC classification number: G09F13/22 , B82Y40/00 , G09F2013/222 , Y10S362/80
Abstract: A transparency signboard is provided to conveniently form the transparent electrode pattern by forming the electrode using the carbon nanotube. A transparency signboard comprises the transparent substrate(110); the electrode pattern(120) which is formed on the transparent substrate and consists of the carbon nanotube; the emitting device(150) connected to and installed at the electrode pattern. The transparent substrate and the electrode pattern are installed on the same surface. The electrode pattern has the transparency of 10% to 99%. The electrode pattern has the surface resistance of 1 &Omega or 1M &Omega.
Abstract translation: 通过使用碳纳米管形成电极,提供透明招牌来方便地形成透明电极图案。 透明招牌包括透明基板(110); 所述电极图案(120)形成在所述透明基板上并且由所述碳纳米管构成; 所述发射装置(150)连接到并安装在所述电极图案上。 透明基板和电极图案安装在同一表面上。 电极图案具有10%至99%的透明度。 电极图案的表面电阻为1Ω或1MΩ。
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Patent Agency Ranking
公开(公告)号:KR100797094B1
公开(公告)日:2008-01-22
申请号:KR1020060095738
申请日:2006-09-29
Applicant: 한국기계연구원
CPC classification number: H05B2214/04 , H05B3/84 , H05B3/145 , H05B2203/013
Abstract: A transparent heater and a method for fabricating the same are provided to ensure a high heat-generation performance by having a thin nano material dense layer on a transparent substrate to reduce the distribution part of nano material. A transparent heater includes a transparent substrate(111), a nano material dense layer(116), and a terminal. The nano material dense layer is formed under a surface of the transparent substrate and has a structure including carbon nano tubes connected to each other. The terminal is connected to the nano material dense layer electrically. At least any one selected from a group consisting of a metallic oxide, a semiconductor, and a metal is attached to the carbon nano tubes. The nano material dense layer is formed in a structure that the carbon nano tubes are fused on the transparent substrate.
Abstract translation: 提供一种透明加热器及其制造方法,以通过在透明基板上具有薄的纳米材料致密层以减少纳米材料的分布部分来确保高的发热性能。 透明加热器包括透明基板(111),纳米材料致密层(116)和端子。 纳米材料致密层形成在透明基板的表面下方,并且具有包括彼此连接的碳纳米管的结构。 端子电连接到纳米材料致密层。 选自由金属氧化物,半导体和金属组成的组中的至少任意一种被附着在碳纳米管上。 纳米材料致密层以碳纳米管熔合在透明基板上的结构形成。
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公开(公告)号:KR1020080004912A
公开(公告)日:2008-01-10
申请号:KR1020060063840
申请日:2006-07-07
Applicant: 한국기계연구원
CPC classification number: H01J1/304 , B81B7/0006 , B81B2207/07 , B82Y10/00 , H01J31/127 , H01J2201/30446 , H01J2201/30469 , H01J2329/0455 , H01L51/0003 , H01L51/0021 , H01L51/0048
Abstract: A nano device structure is provided to simplify the fabrication process thereof and reduce a contact resistance between an electrode and a nano material (layer). A nano device structure includes a substrate having an alignment origin portion formed thereon, a plurality of nano material layers(20) coated over the substrate at regular intervals, and an electrode formed in contact with the upper face of the nano material layers. Preferably, the nano substance layers are coated by jetting a nano material solution(25) such that an adhesion between the electrode and the nano material layers is increased. After the nano material is applied, the substrate is heated to prevent the nano materials from lumping each other on the substrate.
Abstract translation: 提供纳米器件结构以简化其制造工艺并降低电极和纳米材料(层)之间的接触电阻。 纳米器件结构包括其上形成有对准原点部分的衬底,以规则间隔涂覆在衬底上的多个纳米材料层(20)以及与纳米材料层的上表面接触形成的电极。 优选地,通过喷射纳米材料溶液(25)来涂覆纳米物质层,使得电极和纳米材料层之间的粘合力增加。 在施加纳米材料之后,加热衬底以防止纳米材料在衬底上彼此结块。
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公开(公告)号:KR100787239B1
公开(公告)日:2007-12-21
申请号:KR1020070009367
申请日:2007-01-30
Applicant: 한국기계연구원
Abstract: A carbon nanotube transparent conductor and a heat radiating device containing the carbon nanotube transparent conductor are provided to obtain a conductive material having a UV screening function. A carbon nanotube transparent conductor(100) comprises a transparent substrate(10); a conductive carbon nanotube structure(120); and a UV screening material(130) which is uniformly distributed on/in the transparent substrate. Preferably the conductive carbon nanotube structure and the UV screening material are located inside the substrate; the conductive carbon nanotube structure is located inside the substrate and the UV screening material is located on the surface of the substrate; or the conductive carbon nanotube structure is located on the surface of the substrate and the UV screening material is located inside the surface of the substrate.
Abstract translation: 提供碳纳米管透明导体和含有碳纳米管透明导体的散热装置,以获得具有UV屏蔽功能的导电材料。 碳纳米管透明导体(100)包括透明基板(10); 导电碳纳米管结构(120); 以及均匀分布在透明基板上的UV屏蔽材料(130)。 优选地,导电碳纳米管结构和UV屏蔽材料位于衬底内; 导电性碳纳米管结构位于基板的内部,UV屏蔽材料位于基板的表面上; 或者导电性碳纳米管结构位于基板的表面上,并且UV屏蔽材料位于基板的表面内。
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公开(公告)号:KR100801670B1
公开(公告)日:2008-02-11
申请号:KR1020060099975
申请日:2006-10-13
Applicant: 한국기계연구원
IPC: H01L21/288 , B82Y40/00
CPC classification number: H01L21/288 , B82Y40/00 , H01L21/02527 , H01L21/02606
Abstract: A method for fabricating a fine electrode pattern of a nano material by an inkjet printing method is provided to fabricate a transparent soft electrode by scattering a carbon nano tube to a solution to fabricate carbon nano tube ink and by jetting the ink to form a pattern. Carbon nano tube ink including a carbon nano tube is jetted to the surface of a substrate under a condition of transparency of 10-99 percent and surface resistance of 1-10^6 ohm/square so that a uniform network is formed on the substrate. A surface treatment can be performed on the surface of the substrate so that the surface of the substrate becomes hydrophilic and ink is spread widely.
Abstract translation: 提供了一种通过喷墨印刷方法制造纳米材料的细电极图案的方法,以通过将碳纳米管散布到溶液中以制造碳纳米管油墨并通过喷射墨以形成图案来制造透明软电极。 在透明度为10-99%,表面电阻为1-10 ^ 6欧姆/平方的条件下,将包含碳纳米管的碳纳米管油墨喷射到基板的表面,使得在基板上形成均匀的网络。 可以在基板的表面上进行表面处理,使得基板的表面变得亲水,并且油墨广泛地扩散。
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公开(公告)号:KR100797093B1
公开(公告)日:2008-01-22
申请号:KR1020060063840
申请日:2006-07-07
Applicant: 한국기계연구원
CPC classification number: H01J1/304 , B81B7/0006 , B81B2207/07 , B82Y10/00 , H01J31/127 , H01J2201/30446 , H01J2201/30469 , H01J2329/0455 , H01L51/0003 , H01L51/0021 , H01L51/0048
Abstract: 본 발명에 따른 나노 소자 구조물은 나노 물질층을 용이하게 도포하고 나노 물질층과 전극 사이의 접촉 저항을 감소시킬 수 있도록, 정렬 기준부가 형성된 기판과, 상기 기판 위에 도포된 복수의 나노 물질층, 및 상기 나노 물질층의 상면과 접하도록 형성된 전극을 포함한다.
나노 소자 구조물, 정렬 기준부, 분사, 나노 물질층
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