公开(公告)号：KR1020100137621A

公开(公告)日：2010-12-31

申请号：KR1020090055752

申请日：2009-06-23

Applicant: 한국세라믹기술원 ,  극동씰테크 주식회사

Inventor： 허승헌 ,  주혜미 ,  최성호 ,  조광연 ,  류도형

IPC: C01B31/02 ,  C01B31/04 ,  B82B1/00

CPC classification number: C01B32/05 ,  B82B1/008 ,  C01B32/182

Abstract: PURPOSE: A method for producing a low-dimensional carbon-contained composite and a method for producing a carbon block are provided to add a carbon nano tube with point/line contact properties and grapheme with surface contact properties, thereby increasing electric conductivity of a carbon composite. CONSTITUTION: Graphene and a low-dimensional carbon material are added to pitch. The grapheme, the low-dimensional carbon material, and the pitch are uniformly distributed through a post-processing process. Pressing molding of a carbon composite is performed by a press device. A molded product is thermally processed at 150~350 degrees for 2~6 hours. The molded product is carbonized at 1000~1500 degrees after oxidation stabilization. The oxidation stabilization of the molded product is performed under a low temperature for a long time. Therefore, a carbon block with high electric conductivity is manufactured.

Abstract translation: 目的：提供低维含碳复合体的制造方法和碳块的制造方法，以添加具有点/线接触性的碳纳米管，并具有表面接触性能，从而提高碳的导电性 综合。 构成：将石墨烯和低维碳材料加入沥青中。 字形，低维碳材料和沥青通过后处理工艺均匀分布。 通过压制装置进行碳复合材料的成型。 将成型品在150〜350度下热处理2〜6小时。 氧化稳定后，成型产品在1000〜1500度碳化。 模制产品的氧化稳定性在低温下长时间进行。 因此，制造具有高导电性的碳块。

公开(公告)号：KR1020100116400A

公开(公告)日：2010-11-01

申请号：KR1020090035082

申请日：2009-04-22

Applicant: 한국세라믹기술원

Inventor： 허승헌

IPC: B32B37/00 ,  C01B31/02 ,  B82B1/00

CPC classification number: B32B37/00 ,  B82B3/00 ,  C01B32/152

Abstract: PURPOSE: A liquid-vapor inversion aerosol deposition method and an apparatus thereof are provided to manufacture a nanoparticle coated film, a carbon nanotube coated film, and a graphene coating film by directly forming an aerosol with micro droplets dispersed with material powder. CONSTITUTION: A liquid-vapor inversion aerosol deposition method comprises the following steps: spraying micro droplets dispersed with material powder; heating the sprayed micro droplets to form an aerosol; and spraying the aerosol to deposit to a substrate. A liquid-vapor inversion aerosol deposition apparatus includes a micro nozzle spraying the micro droplets, a heating chamber forming the aerosol, a spray nozzle spraying the aerosol inside the heating chamber, and a deposition chamber including the substrate in the inside.

Abstract translation: 目的：提供液 - 气反转气溶胶沉积方法及其装置，通过用分散有材料粉末的微滴直接形成气溶胶来制造纳米颗粒涂覆膜，碳纳米管涂覆膜和石墨烯涂膜。 构成：液 - 气反演气溶胶沉积方法包括以下步骤：喷涂分散有物料粉末的微滴; 加热喷雾的微滴形成气溶胶; 并喷雾气溶胶以沉积到基底上。 液 - 气反转气溶胶沉积装置包括喷雾微滴的微喷嘴，形成气溶胶的加热室，在加热室内喷射气溶胶的喷嘴和在内部包括基板的沉积室。

公开(公告)号：KR1020090020136A

公开(公告)日：2009-02-26

申请号：KR1020070084613

申请日：2007-08-22

Applicant: 현대자동차주식회사 ,  한국세라믹기술원

Inventor： 김상학 ,  김창열 ,  류도형 ,  송철규 ,  조광연 ,  허승헌

IPC: C03C17/00 ,  C03C17/22 ,  C03C17/36

CPC classification number: C03C17/36 ,  B32B17/10036 ,  B32B17/10174 ,  B32B17/10761 ,  C03C17/3673 ,  C03C2217/77 ,  C03C2217/94 ,  Y10T428/26 ,  Y10T428/31692 ,  Y10T428/31851

Abstract: Transparent conductive F-doped tin oxide glass for defogging is provided to have excellent heat resistance, chemical resistance and abrasion resistance and to include FTO transparent oxide conductive having low resistance and high transmittance. Transparent conductive F-doped tin oxide glass for defogging is made by laminating a glass plate layer, a dielectric barrier layer, a functional layer, a metal electrode layer, a plastic interlayer and a glass plate layer in the order. A molar ratio of F/Sn in the functional layer is 0.5~2. A thickness of the FTO transparency conductive film layer is 0.1~1.3 mum. The dielectric barrier layer is made by SiO2 or mixing a transition metal selected from Ti, Zn and Al with SiO2. A thickness of the thickness is 5 ~ 200 nm.

Abstract translation: 提供用于除雾的透明导电F掺杂氧化锡玻璃以具有优异的耐热性，耐化学性和耐磨性，并且包括具有低电阻和高透射率的FTO透明氧化物导电。 用于除雾的透明导电F掺杂氧化锡玻璃按照顺序层压玻璃板层，介电阻挡层，功能层，金属电极层，塑料中间层和玻璃板层来制造。 功能层中F / Sn的摩尔比为0.5〜2。 FTO透明导电膜层的厚度为0.1〜1.3μm。 介电阻挡层由SiO 2制成，或将选自Ti，Zn和Al的过渡金属与SiO 2混合。 厚度为5〜200nm。

公开(公告)号：KR1020090007965A

公开(公告)日：2009-01-21

申请号：KR1020070071221

申请日：2007-07-16

Applicant: 한국세라믹기술원

Inventor： 허승헌 ,  류도형

IPC: B82B3/00 ,  H01L21/8247 ,  H01L27/115 ,  B82Y25/00

CPC classification number: H01L21/28282 ,  B82B3/00 ,  B82Y10/00

Abstract: A nano particle charge storing device is provided to form nano particles of which a size is uniform to high density into a single layer using a new process and to leak no current. A nano particle charge storing device contains a first insulating layer, a high density nano particle film and a second insulating layer formed on the nano particle film. The metal organic film is metallocene(M(C5H5)2, M is metal) or a metallocene derivative. The nano particle film is metal, alloy, semiconducting metal and a metal compound. The energy is selected between photon, electron beam, radiation ray and microwave.

Abstract translation: 提供纳米颗粒电荷存储装置，以使用新工艺将大小均匀至高密度的纳米颗粒形成单层，并且不泄漏电流。 纳米颗粒电荷存储装置包含第一绝缘层，高密度纳米颗粒膜和形成在纳米颗粒膜上的第二绝缘层。 金属有机膜是茂金属（M（C5H5）2，M是金属）或金属茂衍生物。 纳米颗粒膜是金属，合金，半导体金属和金属化合物。 在光子，电子束，辐射线和微波之间选择能量。

公开(公告)号：KR1020080078962A

公开(公告)日：2008-08-29

申请号：KR1020070018855

申请日：2007-02-26

Applicant: 한국세라믹기술원 ,  나노미래 주식회사

Inventor： 허승헌 ,  류도형 ,  진은주 ,  조광연 ,  정찬영

IPC: B01J21/06 ,  B01J21/04 ,  B82B3/00 ,  B82Y30/00

CPC classification number: B01J35/026 ,  B01J21/04 ,  B01J21/063 ,  B01J35/004 ,  B01J37/0201 ,  B01J37/12 ,  B82B3/00

Abstract: High efficient photocatalytic parts are provided to enable light to be irradiated on a surface of the matrix uniformly and three dimensionally even when light is irradiated in one direction onto the shape of a matrix, and to improve specific surface area of the matrix or a photocatalyst, and a manufacturing method of the high efficient photocatalytic parts is provided. A manufacturing method of a three-dimensional photocatalytic part comprises the steps of: forming an anodizable metal or alloy wire; and anodizing a surface of a formed matrix to form a uniform nanoporous oxide film on the surface of the matrix. A manufacturing method of a three-dimensional photocatalytic part comprises the steps of: forming an anodizable metal or alloy into the form of a foam; and anodizing a surface of a formed matrix to form a uniform nanoporous oxide film on the surface of the matrix. A manufacturing method of a three-dimensional photocatalytic part comprises the steps of: forming an anodizable metal or alloy into the form of a mesh; and anodizing a surface of a formed matrix to form a uniform nanoporous oxide film on the surface of the matrix. The metal matrix comprises metal having photocatalytic activity after anodizing. The manufacturing method further comprises the step of supporting a photocatalyst onto the nanoporous film obtained after anodizing. The photocatalyst is TiO2 nanoparticles or TiO2 nanotubes.

Abstract translation: 提供了高效光催化剂部件，即使当将光沿一个方向照射到基体的形状上时，能均匀地且三维地照射基体的表面，并且为了提高基体或光催化剂的比表面积， 并提供了高效光催化部件的制造方法。 三维光催化部件的制造方法包括以下步骤：形成阳极氧化金属或合金丝; 并对形成的基体的表面进行阳极氧化，以在基体的表面上形成均匀的纳米孔氧化膜。 三维光催化部件的制造方法包括以下步骤：将可阳极氧化的金属或合金制成泡沫形式; 并对形成的基体的表面进行阳极氧化，以在基体的表面上形成均匀的纳米孔氧化膜。 三维光催化部件的制造方法包括以下步骤：将可阳极氧化的金属或合金形成为网状; 并对形成的基体的表面进行阳极氧化，以在基体的表面上形成均匀的纳米孔氧化膜。 金属基质包括阳极氧化后具有光催化活性的金属。 制造方法还包括将光催化剂负载到阳极氧化后获得的纳米多孔膜上的步骤。 光催化剂是TiO2纳米颗粒或TiO2纳米管。

公开(公告)号：KR1020210051411A

公开(公告)日：2021-05-10

申请号：KR1020190136658

申请日：2019-10-30

Applicant: 한국세라믹기술원

Inventor： 최기인 ,  허승헌 ,  김현구 ,  이창현 ,  김민정 ,  민수경

IPC: G01N21/76 ,  G01N21/33 ,  G01N31/10 ,  G01N21/85 ,  G01N33/00

Abstract: 본발명은현장에시공된광촉매건설자재에대해직접광촉매성능평가를하기위하여, 유입오염가스의유출을최소화시킬수 있도록구성된이중구조형접촉식현장광촉매성능평가장치에관한것이다. 본발명은「불투명성경질판하부에접지면과밀착시킬수 있는연질의바닥재가결합되어있으며, 판면중앙에삽입공이형성된외부차단판; 불투명성경질판하부에접지면과밀착시킬수 있는연질의바닥재가결합되어있으며, 상기삽입공에밀착되도록끼워지고, 바닥면에서상방향으로내입된반응공간이형성된내부반응조; 상기반응공간에연통되어가스를주입하는주입관; 및상기반응공간에연통되어가스를배출하는배출관; 을포함하여구성된이중구조형접촉식현장광촉매성능평가장치」를제공한다.

公开(公告)号：KR102065048B1

公开(公告)日：2020-01-10

申请号：KR1020180045059

申请日：2018-04-18

Applicant: 한국세라믹기술원

Inventor： 허승헌 ,  최기인 ,  이명규 ,  김선택 ,  안욱성

IPC: G01N1/36 ,  G01N1/28 ,  G01N21/84

公开(公告)号：KR101837478B1

公开(公告)日：2018-03-13

申请号：KR1020160000448

申请日：2016-01-04

Applicant: 한국세라믹기술원

Inventor： 허승헌

IPC: C01B31/04 ,  B01J6/00 ,  B01J19/08 ,  B01J19/12

Abstract: 본발명은그래핀류소재를포함한 2종이상의나노판상소재를혼합하여소재간 면간겹침에의한전기전도성등의물성향상을극대화시키되, 그래핀류소재의불순물을제거하여그래핀류소재고유의물성이충분히발현되도록한 것이다. 발명은, 「(a) 불순물이포함된그래핀류소재에상기불순물을기화시킬수 있는임계에너지를가하여전처리그래핀류소재를생성시키는단계; 및 (b) 상기전처리그래핀류소재와두께가다른나노판상소재를상기전처리그래핀과혼합시킴으로써, 상기전처리그래핀류소재와나노판상소재중 두께가얇은소재가두꺼운소재사이에들어가면서소재간접촉면이넓어지도록하는단계; 를포함하는그래핀하이브리드소재제조방법」을제공한다.

公开(公告)号：KR1020170081428A

公开(公告)日：2017-07-12

申请号：KR1020160000448

申请日：2016-01-04

Applicant: 한국세라믹기술원

Inventor： 허승헌

IPC: C01B31/04 ,  B01J6/00 ,  B01J19/08 ,  B01J19/12

Abstract: 본발명은그래핀류소재를포함한 2종이상의나노판상소재를혼합하여소재간 면간겹침에의한전기전도성등의물성향상을극대화시키되, 그래핀류소재의불순물을제거하여그래핀류소재고유의물성이충분히발현되도록한 것이다. 발명은, 「(a) 불순물이포함된그래핀류소재에상기불순물을기화시킬수 있는임계에너지를가하여전처리그래핀류소재를생성시키는단계; 및 (b) 상기전처리그래핀류소재와두께가다른나노판상소재를상기전처리그래핀과혼합시킴으로써, 상기전처리그래핀류소재와나노판상소재중 두께가얇은소재가두꺼운소재사이에들어가면서소재간접촉면이넓어지도록하는단계; 를포함하는그래핀하이브리드소재제조방법」을제공한다.

Abstract translation: 本发明是pinryu通过混合在所述第二纸张纳米板状材料，包括材料sikidoe最大化改进的物理性能，例如由于面对到面材料之间重叠的导电性，是pinryu在pinryu是除去杂质材料材料固有充分明确性质 一会。 （A）通过施加临界能量以在含有杂质的石墨烯材料中汽化杂质来产生​​预处理石墨烯材料; 和（b）的前处理是pinryu通过的材料和厚度的混合不同纳米片材料和预石墨烯，前处理是pinryu材料和纳米片材是较宽的接触表面的材料之间的材料的厚的薄材料厚度之间进入 使得步骤; 以及制造石墨烯混合材料的方法。

公开(公告)号：KR101754208B1

公开(公告)日：2017-07-07

申请号：KR1020150044179

申请日：2015-03-30

Applicant: 한국세라믹기술원

Inventor： 허승헌 ,  유소연 ,  장세나

IPC: C01B31/04

Abstract: 본발명은「(a) 흑연을산화시켜만들어진흑연산화물의표면에프리커서를흡착시켜흑연산화물-프리커서복합체를제조하는단계; 및 (b) 상기흑연산화물-프리커서복합체에에너지를인가하여흑연산화물을환원시키면서주름부위에프리커서가혼입되도록하는단계;를포함하는그래핀주름복합체제조방법」을제공한다.

Abstract translation: （A）在通过氧化石墨生产的氧化石墨的表面上吸附前体以生产氧化石墨前体复合物; 并且（b）向石墨氧化物前体复合物施加能量以减少氧化石墨，同时使前体进入波纹。