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    • 1. 发明公开
    • 디스플레이 및 염료감응형 태양 전지용 광 경화 잉크젯 잉크 조성물의 제조방법
    • 用于制备用于显示和染色敏感性太阳能电池的照片可固化喷墨墨水的方法
    • KR1020130019054A
    • 2013-02-26
    • KR1020110080966
    • 2011-08-16
    • 주식회사 씨드
    • 문동완임현균
    • C09D11/30H01L31/042
    • C09D11/101C09D11/30C09D11/50H01G9/2059H01L51/0005Y02E10/542
    • PURPOSE: A manufacturing method of a photo-curing inkjet composition is provided to provide high resolution, to not discharge harmful material, and to be used for various inkjet head. CONSTITUTION: A manufacturing method of a photo-curing inkjet composition for an anisotropic display and dye-sensitized solar cell comprises: a step of manufacturing an active type intensity controlling liquid crystal polymer particle; a step of manufacturing an active type photo-curable dispersion master solution which comprises the active type intensity controlling liquid crystal polymer particle; a step of dispersing the photo-curable dispersion master solution; a step of mixing the photocurable chemical material and the photocurable dispersion master solution; and a step of precisely filtering the mixture. [Reference numerals] (CPF11) Step of selecting salt-pigment phosphorescence(fluorescence) chromatogen and active light amount adjusting liquid polymer materials; (CPF12) Step of manufacturing active light amount adjusting liquid polymer and light emitting polymer; (CPF13) Step of manufacturing a dye, pigment photophorescence(fluorescence), or active light amount adjusting liquid polymer dispersion master solution; (CPF14) Step of dispersing the dye, pigment photophorescence(fluorescence), or active light amount adjusting liquid polymer dispersion master solution; (CPF15) Step of ink formulating; (CPF16) Precisely filtering; (CPF17) Printing
    • 目的:提供光固化喷墨组合物的制造方法,以提供高分辨率,不排放有害物质,并用于各种喷墨头。 构成:用于各向异性显示和染料敏化太阳能电池的光固化喷墨组合物的制造方法包括:制造活性型强度控制液晶聚合物颗粒的步骤; 制造包含活性型强度控制液晶聚合物颗粒的活性型可光固化分散母液的步骤; 分散可光固化分散母液的步骤; 将光固化性化学物质和光固化型分散母液混合的工序; 以及精确过滤混合物的步骤。 [参考号](CPF11)选择盐 - 颜料磷光(荧光)染色质和活性光量调节液体聚合物材料的步骤; (CPF12)制造活性光量调节液聚合物和发光聚合物的步骤; (CPF13)制造染料步骤,颜料光致发光(荧光)或活性光量调节液体聚合物分散母液; (CPF14)分散染料步骤,颜料光致发光(荧光)或活性光量调节液聚合物分散母液; (CPF15)油墨配制步骤; (CPF16)精确过滤; (CPF17)打印
    • 2. 发明公开
    • 환경-친화적인 염료-안료 공중합색소체 및 고분자량고분자를 포함하는 잉크조성물의 제조방법
    • 用于制备环境友好的含有组合物和染料色素共聚物颜料的方法以及使用其的超分子聚合物和数字纺织印刷系统
    • KR1020120029659A
    • 2012-03-27
    • KR1020100091593
    • 2010-09-17
    • 주식회사 씨드
    • 문동완임현균
    • C09D11/30B41J2/01C09C3/00D06P5/30
    • C09D11/30B41J2/01C09C3/00D06P5/002D06P5/30
    • PURPOSE: A manufacturing method of environment-friendly ink composition is provided to be physically and chemically stabilized through modifying and synthesizing dye-pigment, thereby manufacturing a functional ink composition. CONSTITUTION: A manufacturing method of environment-friendly ink composition comprises: a step of manufacturing a dye-pigment copolymerized colorant or a super-high-molecular-weight polymer of which average molecular weight is 700,000,000-750,000,000; a step of encapsulating the dye-pigment copolymerized colorant or super-high-molecular-weight polymer; a step of manufacturing ink-composition raw liquid by dispersing the dye-pigment copolymerized colorant or super-high-molecular-weight polymer; a step of manufacturing an ink composition by controlling viscosity, surface tension, etc by adding reactive chemical compounds into the ink-composition raw liquid; and a step of filtering the ink composition.
    • 目的:提供环保型油墨组合物的制造方法,通过改性和合成染料颜料进行物理和化学稳定化,从而制造功能油墨组合物。 构成:环保墨水组合物的制造方法包括:制造平均分子量为700,000〜7.5亿的染料 - 颜料共聚着色剂或超高分子量聚合物的步骤; 包封染料 - 颜料共聚着色剂或超高分子量聚合物的步骤; 通过分散染料 - 颜料共聚着色剂或超高分子量聚合物制造油墨组合原液的步骤; 通过在油墨组合物原液中添加反应性化合物来控制粘度,表面张力等来制造油墨组合物的步骤; 以及过滤油墨组合物的步骤。
    • 4. 发明授权
    • 3차원 잉크젯 프린트 시스템 이용이 가능한 전기 또는 전자 재료용 광 경화 잉크젯 잉크 조성물의 제조방법
    • 制备可用于电子或电子材料的3D喷墨打印系统中的照片可固化喷墨油墨配方的方法
    • KR101272029B1
    • 2013-06-14
    • KR1020100104684
    • 2010-10-26
    • 주식회사 씨드
    • 문동완임현균
    • C09D11/30H01B1/20C09D11/52H01L49/00
    • 본발명은광 경화잉크젯프린트시스템을이용하여잉크젯프린트가가능한이방성을가지는전기재료또는전자재료용잉크조성물에관한것으로서, 구체적으로는전자기전도성유변고분자잉크조성물및 천연유기발광인광(형광)체잉크조성물및 이를이용한모든전기재료또는전자부품의제조방법에관한것이다. 본발명은염-알료인광(형광)체를선택하는단계; 전자기전도성고분자입자를제조하는단계; 전자기전도성고분자또는염-안료인광(형광)체를포함하는광경화분산마스터용액을제조하는단계; 상기광경화분산마스터용액을밀링분산하는단계; 및분산된광경화분산마스터용액과광반응화학물질을혼합하고, 정밀여과하는단계;를포함하는모든전기재료또는전자재료용광경화잉크조성물의제조방법에관한것이다.
    • 目的:提供喷墨油墨组合物的制造方法,以制造高分辨率,不产生有害物质,并获得基于用于各种喷墨头的植物油或水的光固化型喷墨油墨组合物。 构成:喷墨油墨组合物的制造方法包括:制造电磁导电聚合物颗粒的步骤; 制造含有电磁导电性聚合物粒子的光固化分散液的工序; 研磨分散光固化型分散母版溶液的步骤,以及混合分散的光固化分散母液和光反应性化学品的步骤,并对混合物进行精密过滤。
    • 5. 发明公开
    • 극초고분자량 고분자 막을 사용한 전지나 커패시터용 광 경화 잉크젯 잉크의 제조 방법
    • 使用超高分子量聚合物膜制备电池电容的照片可固化喷墨油的方法
    • KR1020130019055A
    • 2013-02-26
    • KR1020110080967
    • 2011-08-16
    • 주식회사 씨드
    • 문동완임현균
    • C09D11/52H01M8/00H01L31/042
    • C09D11/101C09D11/30C09D11/52H01G11/30H01M4/0414H01M4/049H01M4/8835H01M4/8878Y02E60/13
    • PURPOSE: A manufacturing method of a photocurable inkjet composition is provided to not emit harmful material by physical and chemical external impacts and to be used for a various inkjet head. CONSTITUTION: A manufacturing method of a photocurable inkjet composition comprises: a step of selecting an organic-inorganic material which is formed of the positive active electrode and a semiconductor(PC11); a step of forming the positive active electrode and semiconductor particle and manufacturing a ultra high molecular weight porous-hollow capsule particle; a step of manufacturing the capsule particle by a photo-curable dispersion master solution(PC13); a step of dispersing the photocurable dispersion master solution(PC14); and a step of diluting the photo-curable dispersion master solution, mixing the photo-reactive chemical material to the diluted solution; and a step of conducting a microfiltration. [Reference numerals] (PC11) Selecting organic-inorganic conductive-semiconductive materials; (PC12) Step of forming positive(positive, negative) active electrodes and semiconductor particles and manufacturing picoporous ultrahigh molecular weight porous-hollow capsule particles containing positive(positive, negative) active electrode and semiconductor particles; (PC13) Step of manufacturing a photo-curable dispersion master solution; (PC14) Step of milling dispersion; (PC15) Step of ink formulator; (PC16) Precisely filtering; (PC17) Printing
    • 目的:提供可光固化喷墨组合物的制造方法,以通过物理和化学外部冲击而不发生有害物质并用于各种喷墨头。 构成:可光固化喷墨组合物的制造方法包括:选择由正极活性物质和半导体形成的有机无机材料(PC11)的工序; 形成正极活性物质和半导体粒子,制造超高分子量多孔中空胶囊粒子的工序; 通过可光固化分散母液(PC13)制造胶囊颗粒的步骤; 分散光固化分散母液(PC14)的步骤; 以及稀释光固化分散母液的步骤,将光反应性化学物质与稀释溶液混合; 和进行微量过滤的步骤。 (PC11)选择有机 - 无机导电半导体材料; (PC12)形成阳性(正,负)活性电极和半导体颗粒的步骤,制造含有正(正,负)活性电极和半导体颗粒的微孔超高分子量多孔中空胶囊颗粒; (PC13)光固化型分散母液的制造工序; (PC14)分散步骤; (PC15)油墨配制者步骤; (PC16)精确过滤; (PC17)打印
    • 7. 发明公开
    • 고분자량 유-무기 하이브리드 다층벽 캡슐화 폴리머 입자의 초임계 서브 나노 유화/현탁 유체를 포함하는 잉크의 조성물의 제조방법
    • 制备含高分子量有机无机混合多壁聚合物颗粒的超临界亚硝酸乳液/悬浮液的墨水组合物的制备方法
    • KR1020150141937A
    • 2015-12-21
    • KR1020157023236
    • 2013-02-28
    • 주식회사 씨드
    • 문동완임현균
    • C09D11/50C09D11/023C09D11/322
    • C09D11/50C09D11/023C09D11/322Y02P20/544
    • 본발명은디지털프린트위한수계, 식물성오일기반의비수계잉크조성물에필요한발색체, 인광체, 형광체, 유기물, 무기물, 유기/무기하이브리드물질을포함하는잉크젯잉크로사용가능한자기조립/자기구조화/자기분산성을갖는고분자량유기/무기하이브리드폴리머초 임계유체의제조방법에관한것이고, 구체적으로는인체, 환경에유해한화학물질을포함하거나발생시키지않고, 다양한도포방식에함께사용가능한잉크조성물및 제조방법에관한것이다. 또한잉크제조상의문제점외에도헤드의안정성에영향을미치는자성물질인철분과인산염은계면활성제에주로쓰이는바이러한부분에서의당사에서출원된 방법을보완해결책으로제시되는방안은학계에서논문으로제시되거나활용할수 있는수계및 식물성오일계통의용매를바탕으로한 서브마이크로에뮬젼과서브나노서스펜션상태의중합을바탕으로진일보한 상태의발색체, 인광체, 형광체, 유기물, 무기물, 유기/무기하이브리드물질을포함하는잉크젯잉크로사용가능한 (자기조립성, 자기구조화성, 자기분산성)을가지며현탁및 유화될수 있는서브나노크기를가지며 3차원스위칭미셀형태의고분자량유기/무기하이브리드폴리머입자의초임계유체를사용한잉크비히클의제조방법을제시하며보다안전하고편한생산공정으로매우다양한소재에다양한도포기구를사용하여만들수 있는방법을제시한다.
    • 10. 发明公开
    • 초고밀도 미세회로 패턴 형성이 가능한 반도체용 광 경화 잉크젯 잉크의 제조 방법
    • 用于制造超高密度和超精细集成电路图形的电子半导体照片可固定喷墨墨水的方法
    • KR1020130016472A
    • 2013-02-18
    • KR1020110078420
    • 2011-08-08
    • 주식회사 씨드
    • 문동완임현균
    • C09D11/52H05K3/10H01B1/22
    • H01L51/0047B82Y10/00C09D11/101C09D11/322C09D11/52H01L51/0005H01L51/0018
    • PURPOSE: A manufacturing method of ink jet ink is provided to provide the ink jet ink which has a small change rate of band gap energy and electron mobility of a semiconductor, to have superconductivity and piezoelectricity at room temperature, and to have physical and chemical stability. CONSTITUTION: A manufacturing method of ink jet ink comprises: a step of selecting a photocurable semiconductor compound(ES11); a step of manufacturing a semiconductor dispersed particle and a dielectric molecular particle, light, heat, chemical, and electric active light-emitting liquid crystal polymer particle, and a base prepolymer by using a curable monomer(ES12); a step of manufacturing the master dispersion of the organic/inorganic hybrid semiconductor molecule particle and the dielectric molecular particle(ES13); a step of manufacturing the dispersed master raw liquid of the organic/inorganic hybrid semiconductor molecular dispersion particle(ES14); a step of manufacturing the formulation of the organic/inorganic semiconductor molecular particle(ES15); and a step of precision filtration(ES16). [Reference numerals] (ES11) Step of selecting a photocurable semiconductor compound; (ES12) Step of manufacturing a conductive organic-inorganic hybrid semiconductor molecular particles, high-low dielectric molecular particles, light-heat-chemical-electric active light emitting liquid crystal polymer particles, and a base prepolymer by using a ultraviolet ray(light), heat, radiation ray curable monomer; (ES13) Step of manufacturing the master dispersion raw liquid of the organic-inorganic hybrid semiconductor molecule particles and the high-low dielectric molecular particles; (ES14) Step of manufacturing the master dispersion raw liquid of the organic-inorganic hybrid semiconductor molecule particles; (ES15) Step of formulating the organic-inorganic hybrid semiconductor particles; (ES16) Precision filtration; (ES17) Printing
    • 目的:提供一种喷墨油墨的制造方法,以提供具有小的带隙能量变化率和半导体的电子迁移率的喷墨油墨,在室温下具有超导性和压电性,并具有物理和化学稳定性 。 构成:喷墨墨水的制造方法包括:选择光固化半导体化合物(ES11)的步骤; 通过使用可固化单体(ES12)制造半导体分散颗粒和介电分子颗粒,光,热,化学和电活性发光液晶聚合物颗粒和基础预聚物的步骤; 制造有机/无机杂化半导体分子粒子和电介质分子粒子(ES13)的母体分散体的工序。 制造有机/无机混合半导体分散粒子(ES14)的分散原液的工序。 制造有机/无机半导体分子粒子(ES15)的制剂的步骤; 和精密过滤(ES16)的步骤。 [ES11]选择光固化性半导体化合物的工序; (ES12)通过使用紫外线(光),制造导电性有机 - 无机混合半导体分子粒子,高低电介质分子粒子,光热化学电活性发光液晶聚合物粒子和基础预聚物的步骤, ,热,辐射线可固化单体; (ES13)制造有机无机混合半导体分子粒子和高低介电分子粒子的母分散原液的工序; (ES14)制造有机 - 无机混合半导体分子颗粒的主分散原液的工序; (ES15)配制有机 - 无机混合半导体颗粒的步骤; (ES16)精密过滤; (ES17)打印