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公开(公告)号:KR1020160099245A
公开(公告)日:2016-08-22
申请号:KR1020150021445
申请日:2015-02-12
Applicant: 전자부품연구원
Abstract: 본발명은전극기판및 그의전극형성방법에관한것으로, 더욱상세하게는기판상에인쇄공정으로형성되는전극의표면거칠기를개선하여전극의표면조도를낮추기위한것이다. 본발명에따르면, 금속나노입자또는금속나노입자전구체를함유하는유체를기판위에인쇄하여전극코팅층을형성한다. 전극코팅층에따른열처리또는플라즈마처리를통해금속나노입자로형성된금속입자층을형성한다. 금속입자층에고분자소재의충전재를공급하여금속입자층의금속나노입자사이로충전재를충전하되금속입자층의표면부분이노출되게충전재를충전한다. 그리고충전재위로노출된금속입자층부분을습식식각하여전극을형성한다.
Abstract translation: 电极基板及其电极的制造方法技术领域本发明涉及电极基板及其电极的形成方法,更具体地说,涉及通过印刷工序在基板上形成的电极的表面粗糙度,降低电极的表面粗糙度。 根据本发明,所述方法包括:在基板上印刷含有金属纳米颗粒或金属纳米颗粒前体的流体以形成电极涂层的步骤; 根据电极涂层通过热处理或等离子体处理形成由金属纳米颗粒制成的金属颗粒层的步骤; 将由聚合物制成的填料供应到金属颗粒层以将金属颗粒层上的金属纳米颗粒之间的部分与填料填充以暴露金属颗粒层的表面的步骤; 以及对暴露在填料上的金属颗粒层的部分进行湿蚀刻以形成电极的步骤。
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公开(公告)号:KR1020160076083A
公开(公告)日:2016-06-30
申请号:KR1020140185801
申请日:2014-12-22
Applicant: 전자부품연구원
Abstract: 본발명은정보표시장치에관한것으로본 발명에따른기체주입에따른체적의변화가가능한부유형정보표시장치는판형의정보표시부; 상기정보표시부에전극을인가하고, 기체의주입에따라체적을변화시켜상기정보표시부를평평하게유지하는입체적구조를가지는기판; 및상기기판에기체를주입하기위한기체주입구를포함한다. 본발명에따르면, 기체의주입및 배기가가능한입체적구조를가지는하부기판도입을통해기체주입시 플렉서블정보표시소자를평평하게유지시킬수 있으며, 기체배기를통해구부리거나말아서운반보관이가능하다는장점이있다. 또한공기보다가벼운기체를주입해서공중에부유시킬수 있어정보전달력을향상시킬수 있으며, 기판의다른일면에자체전기에너지의생산이가능한소자를부착함으로써반영구적인부유형정보표시장치를구현할수 있다.
Abstract translation: 信息显示装置技术领域本发明涉及信息显示装置。 根据本发明,能够根据气体注入改变体积的信息显示装置包括平面信息显示单元,基板和气体注入端口。 基板具有三维(3D)结构,其中电极被施加到信息显示单元,并且根据气体注入改变体积,以将信息显示单元维持在平坦状态。 气体注入口用于将气体注入衬底。 根据本发明,采用具有允许气体注入和气体排出的3D结构的下基板,因此当注入气体时,可以将柔性信息显示装置保持在平坦状态。 此外,当气体被排出时,该装置可以在被转印时被弯曲,滚动和存储。 此外,比空气轻的气体被注入,因此该装置可以浮在空气中。 因此,可以提高发送信息的功率。 此外,可以将其自身产生电能的装置附接到基板的另一表面。 因此,可以实现半永久性浮动型信息显示装置。
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公开(公告)号:KR101550359B1
公开(公告)日:2015-09-07
申请号:KR1020130149235
申请日:2013-12-03
Applicant: 전자부품연구원 , 경희대학교 산학협력단
Abstract: 양자점제조방법은이차원적평면구조를가지는화합물박막을화학기상증착(Chemical Vapor Deposition(CVD)) 방식으로기판에증착하는단계, 증착된상기화합물박막을기계적박리방식으로박리시키는단계및 박리된상기화합물박막을이용하여양자점을생성하는단계를포함한다.
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公开(公告)号:KR1020140069537A
公开(公告)日:2014-06-10
申请号:KR1020120136893
申请日:2012-11-29
Applicant: 전자부품연구원 , 서울대학교산학협력단
CPC classification number: H02N11/002 , F03G7/005 , H02N1/08
Abstract: The present invention relates to a flexible energy converting apparatus using liquid and, more specifically, to a method and an apparatus for converting mechanic energy into electric energy by applying an opposite phenomenon to an electrowetting phenomenon. The flexible energy converting apparatus using liquid changes a contact surface with liquid between a pair of electrodes and utilizes the changing of the contact surface with liquid for generating electric power so that the blockage of a channel is prevented or a lubricating layer or an electrode complexly patterned on the channel is not required, thereby being simplified and making an energy converting apparatus which reduces production costs and generates less malfunction.
Abstract translation: 本发明涉及一种使用液体的柔性能量转换装置,更具体地说,涉及一种将机械能转化为电能的方法和装置,其应用与电润湿现象相反的现象。 使用液体的柔性能量转换装置改变与一对电极之间的液体的接触表面,并且利用与液体的接触表面的变化来产生电力,从而防止通道的阻塞或润滑层或电极复杂地图案化 在通道上不需要,从而简化并且制造能够降低生产成本并产生较少故障的能量转换装置。
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公开(公告)号:KR101402606B1
公开(公告)日:2014-06-03
申请号:KR1020120141829
申请日:2012-12-07
Applicant: 전자부품연구원
CPC classification number: H01L27/3246 , H01L27/3258 , H01L51/0023 , H01L51/0037 , H01L51/5206 , H01L51/56 , H01L2227/323 , H01L2251/5392 , G09F9/00 , G09G3/3225
Abstract: The present invention relates to a pixel structure of an active matrix display and a method for manufacturing the same, capable of simplifying a process of manufacturing a pixel electrode and a pixel definition layer and solving a problem caused by a terminal formed at a peripheral portion of a pixel electrode according to patterning of the pixel electrode. The pixel structure according to the present invention includes a base substrate, a plurality of pixel circuit electrodes, an insulation layer, and a composite layer. The pixel circuit electrodes are arranged on the base substrate in a matrix form. The insulation layer is formed on the base substrate to cover outer edges of the pixel circuit electrodes. The composite layer is integrally formed with the plurality of pixel circuit electrodes and the insulation layer to cover the upper sides of the plurality of pixel circuit electrodes and the insulation layer. The composite layer includes a conductive pixel electrode formed to be connected to the pixel circuit electrodes exposed from the insulation layer and a nonconductive pixel definition layer at an outer edge of the pixel electrode. The composite layer is formed based on a conductive polymer, the pixel layer is formed by changing the electrical resistance characteristics of the conductive polymer into nonconductive ones, and the remaining parts are formed to be the pixel electrode.
Abstract translation: 本发明涉及一种有源矩阵显示器的像素结构及其制造方法,其能够简化像素电极和像素限定层的制造工艺,并解决由形成在外围部分的端子所引起的问题 根据像素电极的图案化的像素电极。 根据本发明的像素结构包括基底基板,多个像素电路电极,绝缘层和复合层。 像素电路电极以矩阵形式布置在基底基板上。 绝缘层形成在基底基板上以覆盖像素电路电极的外边缘。 复合层与多个像素电路电极和绝缘层一体地形成,以覆盖多个像素电路电极和绝缘层的上侧。 复合层包括形成为连接到从绝缘层暴露的像素电路电极的导电像素电极和在像素电极的外边缘处的非导电像素定义层。 复合层基于导电聚合物形成,通过将导电聚合物的电阻特性改变为非导电聚合物形成像素层,其余部分形成为像素电极。
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Patent Agency Ranking
公开(公告)号:KR1020140063459A
公开(公告)日:2014-05-27
申请号:KR1020130138613
申请日:2013-11-14
Applicant: 헤레우스 프레셔스 메탈스 게엠베하 운트 코. 카게 , 전자부품연구원
CPC classification number: H01B5/00 , C09D11/03 , C09D11/52 , C23C18/08 , H01L51/0022 , H01L51/10 , H01L51/52 , H01L2924/0002 , Y10T428/12528 , Y10T428/24355 , Y10T428/249995 , Y10T428/31663 , H01L2924/00
Abstract: Provided is a multi-layered composite precursor (2) which includes: a substrate (4) which includes a light-emitting organic compound, a first surface (8), and a second surface (10) which is overlapped by a transparent electroconductive layer; and a liquid phase (18) which overlaps at least a part of the first surface (8) including a metal-organic compound, wherein the metal-organic compound includes an organic moiety which includes a C=O group. The liquid phase (18) further includes a first silicon compound which includes at least one carbon atom and at least one nitrogen atom.
Abstract translation: 提供一种多层复合前体(2),其包括:包含发光有机化合物的基板(4),第一表面(8)和与透明导电层重叠的第二表面(10) ; 以及与包含金属有机化合物的第一表面(8)的至少一部分重叠的液相(18),其中所述金属有机化合物包括包含C = O基团的有机部分。 液相(18)还包括包含至少一个碳原子和至少一个氮原子的第一硅化合物。
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公开(公告)号:KR101392873B1
公开(公告)日:2014-05-09
申请号:KR1020120120538
申请日:2012-10-29
Applicant: 전자부품연구원
Abstract: Disclosed is a method for forming a nanostructure using various kinds of solvents. The method for forming the nanostructure using the various kinds of solvents according to one embodiment of the present invention includes: a first step of preparing a first solution by dissolving a first solute in a first solvent; a second step of preparing a second solution by dissolving a second solute in a second solvent; a third step of preparing a hybrid solution by stirring the first solution and the second solution; and a fourth step of forming the nanostructure using the hybrid solution.
Abstract translation: 公开了使用各种溶剂形成纳米结构的方法。 根据本发明的一个实施方案,使用各种溶剂形成纳米结构的方法包括:通过将第一溶质溶解在第一溶剂中制备第一溶液的第一步骤; 通过将第二溶质溶解在第二溶剂中制备第二溶液的第二步骤; 通过搅拌第一溶液和第二溶液来制备混合溶液的第三步骤; 以及使用该混合溶液形成纳米结构的第四步骤。
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公开(公告)号:KR101334136B1
公开(公告)日:2013-11-28
申请号:KR1020110145953
申请日:2011-12-29
Applicant: 전자부품연구원
Abstract: 나노 입자를 포함하는 비등방성 광전달 소재가 개시된다. 본 발명의 일 실시예에 따른 비등방성 광전달 소재는 광의 파장을 변환시키는 나노 형광체 및 나노 양자점 중 적어도 하나가 몸체 내부에 혼합 분산되어 있는 것으로, 상기 몸체가 섬유상 형태를 가지는 것을 특징으로 한다.
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公开(公告)号:KR1020130029665A
公开(公告)日:2013-03-25
申请号:KR1020110093075
申请日:2011-09-15
Applicant: 전자부품연구원
IPC: C09K5/00 , C08L101/12 , C08J3/12
Abstract: PURPOSE: A material is provided to obtain high conductivity by transferring phonons along the surface of a particle without dispersing the phonons in a polymer resin. CONSTITUTION: A material(100) comprises an elastic particle(130) formed of a polymer resin; and a highly thermal conductive particle(110) which is coupled to the surface of the elastic particle by an integrated high spinning method. The elastic modulus of the elastic particle is 0.01-100 GPa. The thermal conductivity of the highly thermal conductive particle is 1.0-2,000 W/mK. The size of the elastic particle is 1micron-100mm. The particle size of the highly thermal conductive particle is 1nm-1mm. The highly thermal conductive particle is coupled to the surface of the elastic particle.
Abstract translation: 目的:提供一种通过沿着颗粒表面转移声子而不将声子分散在聚合物树脂中来获得高导电性的材料。 构成:材料(100)包括由聚合物树脂形成的弹性颗粒(130); 和高导热性颗粒(110),其通过一体式高纺丝方式与弹性颗粒的表面相连。 弹性体的弹性模量为0.01〜100GPa。 高导热颗粒的导热系数为1.0-2,000W / mK。 弹性粒子的尺寸为1微米〜100毫米。 高导热粒子的粒径为1nm-1mm。 高导热颗粒与弹性颗粒的表面相连。
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公开(公告)号:KR101199288B1
公开(公告)日:2012-11-09
申请号:KR1020110045586
申请日:2011-05-16
Applicant: 전자부품연구원 , 엘에스전선 주식회사
Abstract: PURPOSE: A polymer composite for producing insulating material of high voltage direct current cable for transmission is provided to minimize insulation voltage degradation which occurs dielectric breakdown at voltage lower than initially designed dielectric breakdown voltage. CONSTITUTION: A polymer composite for producing insulating material of high voltage direct current cable comprises a graphite nanofiber partially carbonized by 80-0.01 %, or graphite nanoparticles partially carbonized to 80-0.01%. A manufacturing method the polymer composite comprises a step of manufacturing a graphite nanofiber partially carbonized by carbonizing the graphite nano fiber; a step of manufacturing a polymer composite comprising the partially carbonized graphite nanofiber. [Reference numerals] (AA) Embodiment; (BB) Comparative embodiment
Abstract translation: 目的:提供一种用于生产用于传输的高压直流电缆绝缘材料的聚合物复合材料,用于最大限度地降低绝缘电压降低,这种电压降低低于最初设计的介电击穿电压。 构成:用于制造高压直流电缆绝缘材料的聚合物复合材料包括部分碳化80-0.01%的石墨纳米纤维,或部分碳化至80-0.01%的石墨纳米纤维。 聚合物复合材料的制造方法包括通过碳化石墨纳米纤维来制造部分碳化的石墨纳米纤维的步骤; 制造包含部分碳化石墨纳米纤维的聚合物复合材料的步骤。 (附图标记)(AA)实施例; (BB)比较实施例
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