公开(公告)号：US07205096B2

公开(公告)日：2007-04-17

申请号：US11117431

申请日：2005-04-29

申请人： Jong Jin Park ,  Sang Yeol Kim ,  Tae Woo Lee ,  Lyong Sun Pu

发明人： Jong Jin Park ,  Sang Yeol Kim ,  Tae Woo Lee ,  Lyong Sun Pu

IPC分类号： C23C18/30

CPC分类号： G03F7/405 ,  G03F7/0392 ,  Y10T428/31678

摘要： Disclosed herein is a method for forming a metal pattern by using metal nanocrystals. The method comprises the steps of: (i) coating a photosensitive compound having a substituent, which is converted into a free carboxyl group by light exposure, on a substrate to form a photosensitive film; (ii) selectively exposing the photosensitive film to light in the presence of a photoacid generator to form a latent pattern for crystal growth having a free carboxyl group; and (iii) treating the latent pattern for crystal growth with a nanometallic solution in which metal nanocrystals can be formed to grow the metal nanocrystals on the latent pattern. According to the method, a metal wiring pattern can be formed in a cost-effective and relatively simple manner. Further, the metal pattern formed by the method can be useful in the manufacture of an electromagnetic interference filter for flat panel display devices or an electrode, and can thus be applied to devices, e.g., organic light-emitting devices (OLED) and organic thin-film transistors (OTFT).

摘要翻译： 本文公开了通过使用金属纳米晶体形成金属图案的方法。 该方法包括以下步骤：（i）通过曝光将具有取代基的感光性化合物转化成游离羧基，形成感光膜; （ii）在光致酸产生剂的存在下将感光膜选择性曝光以形成具有游离羧基的晶体生长的潜在图案; 和（iii）用可以形成金属纳米晶体的纳米金属溶液处理潜在图案以进行晶体生长，以在潜在图案上生长金属纳米晶体。 根据该方法，可以以成本有效且相对简单的方式形成金属布线图案。 此外，通过该方法形成的金属图案可用于制造用于平板显示装置或电极的电磁干扰滤光器，并且因此可以应用于诸如有机发光器件（OLED）和有机薄膜 - 薄膜晶体管（OTFT）。

公开(公告)号：US07906206B2

公开(公告)日：2011-03-15

申请号：US11204102

申请日：2005-08-16

申请人： Jong Jin Park ,  Hyun Jung Park ,  Bon Won Koo ,  Sang Yoon Lee ,  Lyong Sun Pu ,  Kakimoto Masaaki

发明人： Jong Jin Park ,  Hyun Jung Park ,  Bon Won Koo ,  Sang Yoon Lee ,  Lyong Sun Pu ,  Kakimoto Masaaki

IPC分类号： B32B5/16 ,  C08K5/00 ,  H01L51/30

CPC分类号： H01L21/02118 ,  H01L21/0217 ,  H01L21/02175 ,  H01L21/02282 ,  H01L21/31691 ,  H01L51/0537 ,  Y10T428/25

摘要： An organic insulator composition comprising a high dielectric constant insulator dispersed in a hyperbranched polymer and an organic thin film transistor using the insulator composition. More specifically, the organic thin film transistor comprises a substrate, a gate electrode, a gate insulating layer, a source electrode, a drain electrode and an organic semiconductor layer wherein the gate insulating layer is made of the organic insulator composition. The use of the insulator composition in the formation of a gate insulating layer allows the gate insulating layer to be uniformly formed by spin coating at room temperature, as well as enables fabrication of an organic thin film transistor simultaneously satisfying the requirements of high charge carrier mobility and low threshold voltage.

摘要翻译： 一种有机绝缘体组合物，其包含分散在超支化聚合物中的高介电常数绝缘体和使用该绝缘体组合物的有机薄膜晶体管。 更具体地，有机薄膜晶体管包括基板，栅电极，栅极绝缘层，源电极，漏电极和有机半导体层，其中栅绝缘层由有机绝缘体组合物制成。 在形成栅极绝缘层中使用绝缘体组合物允许在室温下通过旋涂均匀地形成栅极绝缘层，并且能够制造同时满足高电荷载流子迁移率要求的有机薄膜晶体管 和低阈值电压。

公开(公告)号：US09163163B2

公开(公告)日：2015-10-20

申请号：US12403871

申请日：2009-03-13

申请人： Xavier Bulliard ,  Kwang Hee Lee ,  Jong Jin Park ,  Yun Hyuk Choi ,  In Sik In

发明人： Xavier Bulliard ,  Kwang Hee Lee ,  Jong Jin Park ,  Yun Hyuk Choi ,  In Sik In

IPC分类号： C09K19/00 ,  C09J7/02 ,  H01L51/52

CPC分类号： C09J7/0221 ,  C09J7/387 ,  H01L51/5237 ,  H01L51/5256 ,  Y10T428/1059 ,  Y10T428/239

摘要： A multilayer film is provided. The multilayer film includes a barrier layer and an adhesive layer underlying the barrier layer. The adhesive layer contains a block copolymer that can phase separate into two or more different domains. The multilayer film has good gas and moisture barrier properties and is highly flexible. Therefore, the multilayer film can be effectively used in manufacturing encapsulation structures for electronic devices. In addition, the multilayer film is suitable for use as a substrate for a device. Further provided are a method for producing the multilayer film and an encapsulation structure including the multilayer film.

摘要翻译： 提供多层膜。 多层膜包括阻挡层和位于阻挡层下面的粘合剂层。 粘合剂层含有可相分离成两个或多个不同结构域的嵌段共聚物。 多层膜具有良好的气体和水分阻隔性能，并且具有高度灵活性。 因此，多层膜可以有效地用于制造电子器件的封装结构。 此外，多层膜适合用作器件的基板。 还提供了制造多层膜的方法和包括多层膜的封装结构。

公开(公告)号：US08988469B2

公开(公告)日：2015-03-24

申请号：US12967700

申请日：2010-12-14

申请人： Dong Woo Kang ,  Jong Jin Park

发明人： Dong Woo Kang ,  Jong Jin Park

IPC分类号： G09G5/10 ,  G09G3/36 ,  G09G3/34

CPC分类号： G09G3/3426 ,  G09G2320/0646 ,  G09G2330/021 ,  G09G2360/16

摘要： Disclosed is an image display device and its driving method, which facilitates to improve partial luminance in an image-display area by a local dimming method to partially control a backlight unit according to a display image, and simultaneously to reduce power consumption.

摘要翻译： 公开了一种图像显示装置及其驱动方法，其通过局部调光方法有助于改善图像显示区域中的部分亮度，以根据显示图像部分地控制背光单元，并且同时降低功耗。

公开(公告)号：US08974889B2

公开(公告)日：2015-03-10

申请号：US12237808

申请日：2008-09-25

申请人： Xavier Bulliard ,  Anass Benayad ,  Jong Jin Park ,  Jae Cheol Lee ,  Yun Hyuk Choi

发明人： Xavier Bulliard ,  Anass Benayad ,  Jong Jin Park ,  Jae Cheol Lee ,  Yun Hyuk Choi

IPC分类号： B32B5/12 ,  B82Y30/00 ,  C23C16/40

CPC分类号： B82Y30/00 ,  C23C16/401 ,  Y10S977/707 ,  Y10T428/24355 ,  Y10T428/24372

摘要： Disclosed herein is a nanostructured thin film. The nanostructured thin film comprises a nanoparticle layer and a number of micro-undulated surfaces formed on the nanoparticle layer. The two micro-undulated structures of the nanostructured thin film are uniformly introduced over a large area. This configuration makes it easy to control the surface properties of the nanostructured thin film. Therefore, the nanostructured thin film can be widely applied to a variety of devices. Also disclosed herein is a method for controlling the surface properties of the nanostructured thin film.

摘要翻译： 本文公开了纳米结构薄膜。 纳米结构薄膜包括纳米颗粒层和形成在纳米颗粒层上的多个微波浪表面。 在大面积上均匀地引入纳米结构薄膜的两个微波浪结构。 这种构造使得容易控制纳米结构薄膜的表面性质。 因此，纳米结构薄膜可广泛应用于各种器件。 本文还公开了一种用于控制纳米结构薄膜的表面性质的方法。

公开(公告)号：US08354533B2

公开(公告)日：2013-01-15

申请号：US13200321

申请日：2011-09-23

申请人： Hyun Sik Moon ,  Do Hwan Kim ,  Jong Jin Park ,  Jung Seok Hahn

发明人： Hyun Sik Moon ,  Do Hwan Kim ,  Jong Jin Park ,  Jung Seok Hahn

IPC分类号： C07F1/12 ,  H01L51/50

CPC分类号： C07F1/005 ,  H01L51/0084 ,  H01L51/102 ,  Y02E10/549 ,  Y10T428/26

摘要： Example embodiments provide a nitrogen-containing heteroaromatic ligand-transition metal complex, a buffer layer including the complex, which may improve the injection and transport of electrical charges, an organic thin film transistor and an electronic device including the buffer layer, in which the injection of electrons or holes and the transport of charges between layers are accelerated, thereby improving the efficiency thereof, and methods of manufacturing the same.

摘要翻译： 示例性实施方案提供含氮杂芳族配体 - 过渡金属络合物，包含络合物的缓冲层，其可以改善电荷的注入和输送，有机薄膜晶体管和包括缓冲层的电子器件，其中注入 的电子或空穴，并且层之间的电荷的传输被加速，从而提高其效率，及其制造方法。

公开(公告)号：US08188650B2

公开(公告)日：2012-05-29

申请号：US12432180

申请日：2009-04-29

申请人： Eun Joo Jang ,  Shin Ae Jun ,  Sung Hun Lee ,  Jong Jin Park ,  Seong Jae Choi ,  Tae Kyung Ahn

发明人： Eun Joo Jang ,  Shin Ae Jun ,  Sung Hun Lee ,  Jong Jin Park ,  Seong Jae Choi ,  Tae Kyung Ahn

IPC分类号： H01L51/00 ,  H05B33/00

CPC分类号： C09K11/025 ,  B82Y20/00 ,  B82Y30/00 ,  C09K11/565 ,  C09K11/62 ,  C09K11/621 ,  C09K11/64 ,  C09K11/661 ,  C09K11/70 ,  C09K11/7492 ,  C09K11/88 ,  C09K11/883 ,  C09K11/892 ,  C30B7/14 ,  C30B29/48 ,  F21V9/30 ,  G02B6/005 ,  G02F2001/133614 ,  H01L51/5012 ,  H01L51/502 ,  H01L51/504 ,  H05B33/14 ,  Y10T428/256

摘要： A method for preparing a multilayer of nanocrystals. The method includes the steps of (i) coating nanocrystals surface-coordinated by a photosensitive compound, or a mixed solution of a photosensitive compound and nanocrystals surface-coordinated by a material miscible with the photosensitive compound, on a substrate, drying the coated substrate, and exposing the dried substrate to UV light to form a first monolayer of nanocrystals, and (ii) repeating the procedure of step (i) to form one or more monolayers of nanocrystals on the first monolayer of nanocrystals. Further, an organic-inorganic hybrid electroluminescence device using a multilayer of nanocrystals prepared by the method as a luminescent layer. The luminescent efficiency and luminescence intensity of the electroluminescence device can be enhanced, and the electrical properties of the electroluminescence device can be controlled by the use of the multilayer of nanocrystals as a luminescent layer.

摘要翻译： 一种制备多层纳米晶体的方法。 该方法包括以下步骤：（i）将由光敏化合物表面配位的纳米晶体，或由与感光性化合物混合的材料表面配位的感光性化合物和纳米晶体的混合溶液涂布在基材上，干燥被覆基材， 并将干燥的底物暴露于UV光以形成纳米晶体的第一单层，和（ii）重复步骤（i）的步骤以在纳米晶体的第一单层上形成一个或多个单层的纳米晶体。 此外，使用通过该方法制备的多层纳米晶体作为发光层的有机 - 无机混合电致发光器件。 可以提高电致发光器件的发光效率和发光强度，并且可以通过使用多层纳米晶体作为发光层来控制电致发光器件的电性能。

公开(公告)号：US07923110B2

公开(公告)日：2011-04-12

申请号：US11653889

申请日：2007-01-17

申请人： Jong Jin Park ,  Dong Woo Shin ,  Sung Woong Kim

发明人： Jong Jin Park ,  Dong Woo Shin ,  Sung Woong Kim

IPC分类号： B32B5/16

CPC分类号： G03F7/0047 ,  B05D1/185 ,  C03C17/06 ,  H05K3/02 ,  H05K2201/0257 ,  H05K2203/0514 ,  Y10S977/777 ,  Y10S977/778 ,  Y10S977/779 ,  Y10T428/2991

摘要： A metal nanoparticle which is prepared by forming a self-assembled monolayer including a terminal reactive group on the surface thereof, and introducing a functional group capable of being removed by the action of an acid or an base into the terminal reactive group wherein the self-assembled monolayer is built up of a thiol, an isocyanide, an amine, a carboxylate or a phosphate compound having the terminal reactive group, or built up of a thiol, an isocyanide, an amine, a carboxylate or a phosphate compound having no terminal reactive group followed by introducing the terminal reactive group thereto; and a method for forming a conductive pattern using the same are provided. Since the metal nanoparticle of exemplary embodiments of the present invention can easily form a high conductive film or a high conductive pattern through photo-irradiation and photo-degradation and randomly regulate its conductivity when occasions demand, it can be advantageously applied to an antistatic washable sticky film, antistatic shoes, a conductive polyurethane printer roller, an electromagnetic interference shielding, and the like.

摘要翻译： 一种金属纳米颗粒，其通过在其表面上形成包括末端反应性基团的自组装单层并将能够通过酸或碱的作用除去的官能团引入末端反应性基团而制备， 组装的单层由硫醇，异氰化物，胺，羧酸酯或具有末端反应性基团的磷酸酯化合物构成，或由硫醇，异氰化物，胺，羧酸酯或不具有末端反应性的磷酸酯化合物 然后引入末端反应性基团; 并且提供了使用其形成导电图案的方法。 由于本发明的示例性实施方案的金属纳米颗粒可以通过光照射和光降解容易地形成高导电膜或高导电图案，并且当需要时随机调节其导电性，因此可以有利地应用于抗静电可洗粘性 薄膜，抗静电鞋，导电性聚氨酯打印辊，电磁干扰屏蔽等。

公开(公告)号：US20100159219A1

公开(公告)日：2010-06-24

申请号：US12588287

申请日：2009-10-09

申请人： Jong Jin Park ,  Jung Han Shin ,  Sang Yoon Lee

发明人： Jong Jin Park ,  Jung Han Shin ,  Sang Yoon Lee

IPC分类号： B32B3/10 ,  C08K5/1515 ,  C08K5/1539 ,  C08K5/07 ,  C08K5/151 ,  C07D307/83 ,  C07D307/60 ,  C07D493/00 ,  C07D303/12 ,  C07C49/303

CPC分类号： B82Y30/00 ,  B82Y40/00 ,  C01B32/168 ,  C01B32/17 ,  C08K3/041 ,  C08K9/04 ,  C09D7/70 ,  C09D109/06 ,  C09D129/04 ,  G03F7/0382 ,  Y10S977/746 ,  Y10S977/753 ,  Y10S977/842 ,  Y10T428/24893 ,  Y10T428/24994

摘要： Disclosed herein are methods of making a negative pattern of carbon nanotubes or a polymerized carbon nanotube composite having an interpenetrating polymer network (IPN) by modifying the surfaces of the carbon nanotubes with polymerizable functional groups such as oxirane and anhydride groups and subjecting the surface-modified carbon nanotubes either to a photolithography process or to a heatcuring process. By virtue of the present invention, desired patterns of carbon nanotubes can be easily made on the surfaces of various substrates, and polymerized carbon nanotube composites improved in hardening properties can be made without additional polymers.

摘要翻译： 本文公开了通过用诸如环氧乙烷和酸酐基团的可聚合官能团改性碳纳米管的表面来制备碳纳米管的负型图案或具有互穿聚合物网络（IPN）的聚合碳纳米管复合材料的方法，并对表面改性 碳纳米管到光刻工艺或热固化工艺。 根据本发明，可以容易地在各种基板的表面上形成期望的碳纳米管图案，并且可以在没有附加的聚合物的情况下进行提高硬化性能的聚合碳纳米管复合材料。

公开(公告)号：US07554515B2

公开(公告)日：2009-06-30

申请号：US09893676

申请日：2001-06-29

申请人： Hyeon Ho Son ,  Jong Jin Park

发明人： Hyeon Ho Son ,  Jong Jin Park

IPC分类号： G09G3/36

CPC分类号： G09G3/3677 ,  G09G3/3406 ,  G09G3/3648 ,  G09G2300/0842 ,  G09G2310/0237 ,  G09G2310/06 ,  G09G2320/0219 ,  G09G2320/0247

摘要： A method of driving a liquid crystal display device during one display frame includes the steps of applying one of a high-level common voltage and a low-level common voltage to a plurality of liquid crystal cells of the liquid crystal display device to write data into the liquid crystal cells within a time interval shorter than one display frame interval, and turning on a backlight after said data writing to display an image.