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    • 1. 发明公开
    • 도금공정을 이용한 플렉시블 유기물 기판 상의 게이트전극제작 방법과, 이를 이용한 유기 반도체 소자 제조 방법
    • 使用电镀工艺的有机基板上的门电极的制造方法和使用该方法制造有机半导体器件的方法
    • KR1020080034274A
    • 2008-04-21
    • KR1020060100275
    • 2006-10-16
    • 성균관대학교산학협력단
    • 이내응설영국이재근
    • H01L21/336H01L21/288
    • A method of fabricating a gate electrode on an organic substrate using an electroplating process and a Method of fabricating an organic semiconductor device using the same are provided to improve flexibility and electrical property of an organic semiconductor device as a low temperature process by forming an insulating layer and a semiconductor layer as organic materials. A substrate(10) composed of a flexible organic material is provided. An adhesive layer(20) is formed on the substrate. A seed layer(30) for increasing electroplating capability of a gate electrode is formed at the one surface of the adhesive layer. A photoresist is formed on the seed layer. The photoresist is patterned by a mask(50) on which a pattern is formed in advance. A gate electrode is formed on the pattern by using the electroplating or the electroless plating process. The photoresist is removed. The adhesive layer and the seed layer in a region except for gate electrode are removed.
    • 提供使用电镀工艺在有机基板上制造栅电极的方法和使用其制造有机半导体器件的方法,以通过形成绝缘层来提高作为低温工艺的有机半导体器件的柔性和电性能 和半导体层作为有机材料。 提供由柔性有机材料构成的基板(10)。 在基板上形成粘合剂层(20)。 在粘合剂层的一个表面上形成用于增加栅电极的电镀能力的籽晶层(30)。 在种子层上形成光致抗蚀剂。 通过预先形成有图案的掩模(50)对光致抗蚀剂进行图案化。 通过使用电镀或化学镀处理,在图案上形成栅电极。 去除光致抗蚀剂。 去除除栅电极之外的区域中的粘合剂层和种子层。
    • 5. 发明授权
    • 다기능 유기 삽입층을 적용한 플렉시블 유기 반도체 소자제조 방법
    • 使用多功能有机中间层制造柔性有机半导体器件的方法
    • KR100855449B1
    • 2008-09-01
    • KR1020070030775
    • 2007-03-29
    • 성균관대학교산학협력단
    • 이내응설영국배진영박상호
    • H01L29/786
    • H01L51/105H01L51/0558
    • A method for fabricating a flexible organic semiconductor device using a multi-functional organic interlayer is provided to improve contact resistance between a source-drain metal electrode and an organic semiconductor. A surface of a substrate(10) including a flexible organic material is processed. An adhesive layer(20) is formed on the surface-processed substrate. A seed layer(30) is formed on one surface of the adhesive layer. A photoresist layer is formed on the seed layer. The photoresist layer is patterned by using a mask having a pattern. A metal gate electrode layer is formed on the pattern of the photoresist layer. The photoresist layer is removed. The adhesive layer and the seed layer are removed from the residual region except for the metal gate electrode layer. An organic insulator layer(70) is formed on one surface of the metal gate electrode layer. An organic semiconductor layer(80) is formed on one surface of the organic insulator layer. A multi-functional organic interlayer(100) is formed on one surface of the organic semiconductor layer. A source-drain electrode layer(90) is formed on one surface of the multi-functional organic interlayer.
    • 提供一种使用多功能有机中间层制造柔性有机半导体器件的方法,以提高源极 - 漏极金属电极和有机半导体之间的接触电阻。 处理包括柔性有机材料的基板(10)的表面。 在表面处理基板上形成粘接层(20)。 种子层(30)形成在粘合剂层的一个表面上。 在种子层上形成光致抗蚀剂层。 通过使用具有图案的掩模来对抗蚀剂层进行图案化。 在光致抗蚀剂层的图案上形成金属栅电极层。 去除光致抗蚀剂层。 除了金属栅极电极层之外的残留区域除去粘合剂层和种子层。 在金属栅极电极层的一个表面上形成有机绝缘体层(70)。 在有机绝缘体层的一个表面上形成有机半导体层(80)。 在有机半导体层的一个表面上形成多功能有机中间层(100)。 源极 - 漏极电极层(90)形成在多功能有机中间层的一个表面上。
    • 7. 发明公开
    • 선택적 무전해 도금을 이용한 플렉서블 기판의 미세 금속배선 형성 방법
    • 通过电镀镀层在柔性基板上形成金属接线的方法
    • KR1020080073617A
    • 2008-08-11
    • KR1020070034544
    • 2007-04-09
    • 성균관대학교산학협력단
    • 이내응김주환설영국
    • C23C18/16C23C18/54
    • A method for forming a fine metal wiring on a flexible substrate by selective electroless plating is provided to form the metal wiring, using a plasma surface process or the electroless plating so as to improve bonding ability between an organic substrate and the metal wiring and to form the metal wiring selectively. A method for forming a fine metal wiring(5) on a flexible organic substrate(1) by selective electroless plating comprises the steps of; providing the flexible organic substrate; forming a photosensitive insulator(3) on the substrate; patterning the photosensitive insulator, using an optical mask having a pattern(13); processing a plasma surface on one surface of the substrate(14); transferring an adsorption preventing film of a catalyst on the photosensitive insulator selectively; and forming the metal wiring, using an electroless plating or electroplating process. An inorganic thin film(12) is formed on the substrate.
    • 提供通过选择性化学镀在柔性基板上形成精细金属布线的方法,以使用等离子体表面处理或无电解电镀形成金属布线,从而提高有机基板与金属布线之间的接合能力,形成 选择性地选择金属布线。 通过选择性无电镀在柔性有机基板(1)上形成精细金属布线(5)的方法包括以下步骤: 提供柔性有机基材; 在基板上形成感光绝缘体(3); 使用具有图案(13)的光学掩模来图案化感光绝缘体; 在衬底(14)的一个表面上处理等离子体表面; 选择性地在感光绝缘体上转移催化剂的吸附防止膜; 并使用化学镀或电镀工艺形成金属布线。 在基板上形成无机薄膜(12)。
    • 10. 发明授权
    • 유기-무기 나노 복합 절연층을 포함하여 이루어진 유기물반도체 소자, 유기-무기 나노 복합 절연체 용액 및 이들의제조 방법
    • 有机无机纳米复合介电层的有机半导体器件,有机无机纳米复合电介质溶液及其方法
    • KR100878225B1
    • 2009-01-13
    • KR1020070078667
    • 2007-08-06
    • 성균관대학교산학협력단
    • 이내응노화영설영국김선일
    • H01L51/30B82Y30/00
    • An organic semiconductor device comprising organic-inorganic nano-composite dielectric layer is provided to realize excellent flexibility, low leakage current, high dielectric constant by using the organic-inorganic nano complex insulating layer. In an organic semiconductor device, a seed layer(30) is formed at the upper part of the substrate(10). A gate electrode(50) is formed on the seed layer. An organic-inorganic nano complex insulating layer(60) is formed on the substrate in which the gate electrode is formed. An organic semiconductor layer(70) is formed on the dielectric layer, and a source/drain electrode layer(80) is formed. The inorganic oxide dispersion solution is manufactured by mixing the inorganic oxide nano particle with the acid solvent and coupling agent. An organic-inorganic oxides nano composite solution is manufactured by mixing the inorganic oxide dispersion solution with the organic compound insulator. The organic-inorganic oxide cargo nano composite solution is coated on substrate.
    • 提供有机无机纳米复合电介质层的有机半导体器件,通过使用有机 - 无机纳米复合绝缘层实现优异的柔性,低漏电流,高介电常数。 在有机半导体装置中,在基板(10)的上部形成种子层(30)。 在种子层上形成栅电极(50)。 在形成有栅电极的基板上形成有机 - 无机纳米复合绝缘层(60)。 在电介质层上形成有机半导体层(70),形成源极/漏极层(80)。 无机氧化物分散液通过将无机氧化物纳米粒子与酸性溶剂和偶联剂混合来制造。 通过将无机氧化物分散液与有机化合物绝缘体混合来制造有机 - 无机氧化物纳米复合物溶液。 将有机 - 无机氧化物载体纳米复合物溶液涂覆在基材上。