公开(公告)号：US07641883B2

公开(公告)日：2010-01-05

申请号：US12062613

申请日：2008-04-04

Applicant: Hyeon Jin Shin ,  Seonmi Yoon ,  Jaeyoung Choi ,  Seong Jae Choi ,  YoungHee Lee ,  JungJun Bae

Inventor： Hyeon Jin Shin ,  Seonmi Yoon ,  Jaeyoung Choi ,  Seong Jae Choi ,  YoungHee Lee ,  JungJun Bae

IPC: D01F9/12 ,  B03B1/04 ,  B01D11/04 ,  H01B1/04

CPC classification number: B82Y30/00 ,  B82Y40/00 ,  C01B32/172 ,  C01B32/174 ,  C01B2202/22 ,  C01B2202/28 ,  Y10S977/751 ,  Y10S977/895

Abstract: The separation of carbon nanotubes into metallic carbon nanotubes and semiconducting carbon nanotubes is made to be possible simultaneously with the dispersion of the carbon nanotubes by using viologen.

Abstract translation: 将碳纳米管分离成金属碳纳米管和半导体碳纳米管可以通过使用紫精与碳纳米管的分散同时进行。

公开(公告)号：US08815404B2

公开(公告)日：2014-08-26

申请号：US12241976

申请日：2008-09-30

Applicant: Kwang Hee Lee ,  Xavier Bulliard ,  Yi Yeol Lyu ,  Hyeon Jin Shin ,  Yun Hyuk Choi

Inventor： Kwang Hee Lee ,  Xavier Bulliard ,  Yi Yeol Lyu ,  Hyeon Jin Shin ,  Yun Hyuk Choi

IPC: B32B9/04 ,  B32B13/04

CPC classification number: C09D183/16 ,  C08G77/045 ,  C08G77/16 ,  C08G77/18 ,  C08G77/62 ,  C08J7/042 ,  C08J2381/06 ,  C08J2483/04 ,  C08J2483/16 ,  C09D183/04 ,  Y10T428/31663

Abstract: Disclosed herein is a protective film. The protective film is produced by alternate coating of a polysilazane-based polymer and a flexible polysiloxane-based polymer. The polysilazane-based polymer is cured at low temperature to form silica, thereby achieving high hardness and high light transmittance. The protective film has improved interfacial adhesion between the respective coating films, which prevents permeation of moisture and oxygen. In addition, the protective film can be easily produced by low-temperature wet processes. Also disclosed herein is an encapsulation material comprising the protective film.

Abstract translation: 本文公开了保护膜。 保护膜通过交替涂覆聚硅氮烷基聚合物和柔性聚硅氧烷基聚合物来制备。 聚硅氮烷基聚合物在低温下固化形成二氧化硅，从而实现高硬度和高透光率。 保护膜具有改善各涂膜之间的界面粘合，防止水分和氧气渗透。 此外，通过低温湿法可以容易地制造保护膜。 本文还公开了包含保护膜的包封材料。

公开(公告)号：US08269123B2

公开(公告)日：2012-09-18

申请号：US13190750

申请日：2011-07-26

Applicant: Hyeon Jin Shin ,  Jae Young Choi ,  Dong Kee Yi ,  Seong Jae Choi ,  Seonmi Yoon

Inventor： Hyeon Jin Shin ,  Jae Young Choi ,  Dong Kee Yi ,  Seong Jae Choi ,  Seonmi Yoon

IPC: H01H9/18

CPC classification number: G09F9/33 ,  G09G3/14

Abstract: Disclosed herein is an image display device having a plurality of light emitting diodes (LEDs), which can maintain a primary color which is desired to be expressed, and prevent an interference of other unwanted colors and a change of the primary color at the time of application of a light source of each light emitting diode. The image display device comprises: a first optical filter layer containing a violet wavelength-absorbing material having a wavelength range of from 380 nm to 450 nm such as Bi2O3 so as to prevent light having a wavelength ranging from 380 nm to 450 nm from being leaked out to an undesired region of an image display portion of the image display device; and a second optical filter layer such as a blue color filter layer so as to allow a white light to be expressed in a desired region of the image display portion.

Abstract translation: 本文公开了一种具有多个发光二极管（LED）的图像显示装置，其可以保持期望表达的原色，并且防止其它不需要的颜色的干扰和原色的变化 应用每个发光二极管的光源。 图像显示装置包括：含有波长范围为380nm〜450nm的紫外线波长吸收材料的第一光学滤光层，例如Bi 2 O 3，以防止波长范围为380nm至450nm的光被泄漏 出射到图像显示装置的图像显示部分的不期望区域; 以及第二滤光器层，例如蓝色滤色器层，以便允许在图像显示部分的期望区域中表达白光。

公开(公告)号：US08221715B2

公开(公告)日：2012-07-17

申请号：US12437221

申请日：2009-05-07

Applicant: Hyeon Jin Shin ,  Young Hee Lee ,  Jaeyoung Choi ,  Seonmi Yoon ,  Soo Min Kim

Inventor： Hyeon Jin Shin ,  Young Hee Lee ,  Jaeyoung Choi ,  Seonmi Yoon ,  Soo Min Kim

IPC: H01B1/00

CPC classification number: C07D213/22 ,  B82Y10/00 ,  H01B1/24 ,  H01L51/0049 ,  Y10S977/742 ,  Y10S977/745 ,  Y10S977/746 ,  Y10S977/788 ,  Y10S977/795

Abstract: A compound containing at least two pyridinium derivatives in its molecular structure and being in a reduced form thereof may be used as a CNT n-doping material. The compound may donate electrons spontaneously to CNTs to n-dope the CNTs, while being oxidized into its stable state. An n-doped CNT that is doped with the CNT n-doping material may maintain a stable n-doped state for a long time without being dedoped even in the air and/or water. Further, the n-doped state may be easily controlled when using the CNT n-doping material.

Abstract translation: 含有至少两个其分子结构中的吡啶鎓衍生物并且还原形式的化合物可以用作CNT n掺杂材料。 该化合物可以自发​​地向CNT提供电子，以使n-dope的CNT被氧化成其稳定状态。 掺杂有CNT n掺杂材料的n掺杂的CNT可以在长时间内保持稳定的n掺杂状态，而不会在空气和/或水中脱掺杂。 此外，当使用CNTn掺杂材料时，可以容易地控制n掺杂状态。

公开(公告)号：US08062738B2

公开(公告)日：2011-11-22

申请号：US12124818

申请日：2008-05-21

Applicant: Seonmi Yoon ,  Jaeyoung Choi ,  Hyeon Jin Shin ,  Jeong Gun Lee ,  JongMyeon Park

Inventor： Seonmi Yoon ,  Jaeyoung Choi ,  Hyeon Jin Shin ,  Jeong Gun Lee ,  JongMyeon Park

IPC: B32B15/00 ,  B32B17/00 ,  B32B19/00

CPC classification number: C09K5/14 ,  C03C17/006 ,  C03C17/256 ,  C03C2217/42 ,  C08J7/06 ,  C08J7/08 ,  C23C18/14 ,  Y02E10/50 ,  Y10T428/24355 ,  Y10T428/24372 ,  Y10T428/24802 ,  Y10T428/24909 ,  Y10T428/31678

Abstract: Disclosed are a heat transfer medium and a heat transfer method that uses the heat transfer medium. The heat transfer medium comprises a light-transparent substrate coated with a plurality of nano particles. The nano particles absorb light incident thereon to thereby produce heat, which is transferred to a target object to be heated. Nano particles can be applied onto a target object. After heating, the particles are removed by etching. Nano particles can be selectively applied to the light-transparent substrate or directly to a target object to be heat so as to localize heat-production and thus heat selective portions of the target object.

Abstract translation: 公开了使用传热介质的传热介质和传热方法。 传热介质包括涂覆有多个纳米颗粒的透光基板。 纳米颗粒吸收入射在其上的光，从而产生热量，其被传送到待加热的目标物体。 纳米颗粒可以施加到目标物体上。 加热后，通过蚀刻除去颗粒。 可以将纳米颗粒选择性地施加到光透明基板上，或者直接加到待加热的目标物体上，从而定位目标物体的热产生和热选择性部分。

公开(公告)号：US08053059B2

公开(公告)日：2011-11-08

申请号：US11757018

申请日：2007-06-01

Applicant: Seong Jae Choi ,  Kyung Sang Cho ,  Jae Young Choi ,  Dong Kee Yi ,  Hyeon Jin Shin ,  Seon Mi Yoon ,  In Young Song ,  Jong Hyeon Lee ,  Duk Young Jung ,  Geun Tae Cho

Inventor： Seong Jae Choi ,  Kyung Sang Cho ,  Jae Young Choi ,  Dong Kee Yi ,  Hyeon Jin Shin ,  Seon Mi Yoon ,  In Young Song ,  Jong Hyeon Lee ,  Duk Young Jung ,  Geun Tae Cho

IPC: B32B3/14 ,  B32B3/02 ,  B05D5/00

CPC classification number: G03F7/0002 ,  B82Y10/00 ,  B82Y30/00 ,  B82Y40/00 ,  H01L51/0013 ,  Y10T428/24413 ,  Y10T428/24479 ,  Y10T428/24678

Abstract: Provided is a substrate for forming a pattern comprising an inorganic layer having a modified surface, wherein the modified surface is formed by coating a surface of the inorganic layer with a bifunctional molecule comprising a functional group having an affinity for a nanocrystal at one end of the molecule and a functional group having an affinity for the inorganic layer at the other end of the molecule. A method for forming a pattern of nanocrystals is also provided.

Abstract translation: 提供一种用于形成包含具有改性表面的无机层的图案的基材，其中所述改性表面是通过用包含对纳米晶体具有亲和性的官能团的双官能分子涂覆所述无机层的表面而形成的 分子和在分子的另一端对无机层具有亲和性的官能团。 还提供了形成纳米晶体图案的方法。

公开(公告)号：US20100316813A1

公开(公告)日：2010-12-16

申请号：US12854386

申请日：2010-08-11

Applicant: Hyeon Jin Shin ,  Seonmi Yoon ,  Jaeyoung Choi ,  Jin Seung Sohn ,  Eun Hyoung Cho

Inventor： Hyeon Jin Shin ,  Seonmi Yoon ,  Jaeyoung Choi ,  Jin Seung Sohn ,  Eun Hyoung Cho

IPC: B05D5/00

CPC classification number: B81C1/00031 ,  Y10S428/901 ,  Y10S428/913 ,  Y10S428/918 ,  Y10S977/742 ,  Y10T428/24174 ,  Y10T428/30

Abstract: A carbon nanotube (CNT) film having a transformed substrate structure and a manufacturing method thereof. The CNT film includes a transparent substrate, a plurality of three-dimensional (3D) structures formed distant from each other on the transparent substrate, and carbon nanotubes (CNTs) deposited on the transparent substrate where the plurality of 3D structures is not formed. The method includes forming a plurality of 3D structures distant from each other on a transparent substrate, and depositing a CNT solution on the substrate with the plurality of 3D structures formed thereon, wherein the CNT solution is deposited into a portion of the transparent substrate where the 3D structures are not formed. Thus, the deposition mechanism of the CNT solution is controlled to thereby increase the transparency of the CNT film and the electrical conductivity of an electrode including the CNT film.

Abstract translation: 具有转化基板结构的碳纳米管（CNT）膜及其制造方法。 CNT膜包括透明基板，在透明基板上彼此远离形成的多个三维（3D）结构以及沉积在不形成多个3D结构的透明基板上的碳纳米管（CNT）。 该方法包括在透明基板上形成彼此远离的多个3D结构，并且在其上形成有多个3D结构的基板上沉积CNT溶液，其中将CNT溶液沉积到透明基板的一部分中，其中 没有形成3D结构。 因此，控制CNT溶液的沉积机理，从而提高CNT膜的透明度和包括CNT膜的电极的导电性。

公开(公告)号：US09117945B2

公开(公告)日：2015-08-25

申请号：US12031332

申请日：2008-02-14

Applicant: Hyeon Jin Shin ,  Seonmi Yoon ,  Jaeyoung Choi ,  Young Hee Lee ,  Seong Jae Choi ,  Soo Min Kim

Inventor： Hyeon Jin Shin ,  Seonmi Yoon ,  Jaeyoung Choi ,  Young Hee Lee ,  Seong Jae Choi ,  Soo Min Kim

IPC: C01B31/02 ,  H01B1/04 ,  H01L31/0224 ,  B82Y20/00

CPC classification number: H01L31/022466 ,  B82Y20/00 ,  G02B2207/101

Abstract: Disclosed are a carbon nano-tube (CNT) thin film treated with chemical having an electron withdrawing functional group and a manufacturing method thereof. Specifically, the CNT thin film comprises a CNT composition to be applied on a plastic substrate. The CNT composition comprises a CNT; and chemical connected to the CNT and having an electron withdrawing functional group. In addition, the method for manufacturing a CNT thin film comprises steps of preparing a CNT; treating the CNT with chemical having an electron withdrawing functional group; mixing the CNT treated with the chemical with a dispersing agent or dispersing solvent to prepare a CNT dispersed solution; and forming a CNT thin film with the CNT dispersed solution. According to the CNT thin film and the manufacturing method thereof, a resistance of an electrode is decreased to improve the electric conductivity of the electrode.

Abstract translation: 公开了用具有吸电子官能团的化学物质处理的碳纳米管（CNT）薄膜及其制造方法。 具体地，CNT薄膜包括施加在塑料基板上的CNT组合物。 CNT组成包括CNT; 并与CNT连接并具有吸电子官能团。 此外，制造CNT薄膜的方法包括制备CNT的步骤; 用具有吸电子官能团的化学物质处理CNT; 将用化学品处理的CNT与分散剂或分散溶剂混合以制备CNT分散溶液; 并用CNT分散溶液形成CNT薄膜。 根据CNT薄膜及其制造方法，降低电极的电阻，提高电极的导电性。

公开(公告)号：US08945687B2

公开(公告)日：2015-02-03

申请号：US13270790

申请日：2011-10-11

Applicant: Seonmi Yoon ,  Jaeyoung Choi ,  Hyeon Jin Shin ,  Jeong Gun Lee ,  Jongmyeon Park

Inventor： Seonmi Yoon ,  Jaeyoung Choi ,  Hyeon Jin Shin ,  Jeong Gun Lee ,  Jongmyeon Park

IPC: B05D3/06 ,  B29C59/16 ,  H05B6/00 ,  C09K5/14 ,  C03C17/25 ,  C23C18/14 ,  C03C17/00 ,  C08J7/06 ,  B29C71/02

CPC classification number: C09K5/14 ,  C03C17/006 ,  C03C17/256 ,  C03C2217/42 ,  C08J7/06 ,  C08J7/08 ,  C23C18/14 ,  Y02E10/50 ,  Y10T428/24355 ,  Y10T428/24372 ,  Y10T428/24802 ,  Y10T428/24909 ,  Y10T428/31678

Abstract: Disclosed are a heat transfer medium and a heat transfer method that uses the heat transfer medium. The heat transfer medium comprises a light-transparent substrate coated with a plurality of nano particles. The nano particles absorb light incident thereon to thereby produce heat, which is transferred to a target object to be heated. Nano particles can be applied onto a target object. After heating, the particles are removed by etching. Nano particles can be selectively applied to the light-transparent substrate or directly to a target object to be heat so as to localize heat-production and thus heat selective portions of the target object.

Abstract translation: 公开了使用传热介质的传热介质和传热方法。 传热介质包括涂覆有多个纳米颗粒的透光基板。 纳米颗粒吸收入射在其上的光，从而产生热量，其被传送到待加热的目标物体。 纳米颗粒可以施加到目标物体上。 加热后，通过蚀刻除去颗粒。 可以将纳米颗粒选择性地施加到光透明基板上，或者直接加到待加热的目标物体上，从而定位目标物体的热产生和热选择性部分。

公开(公告)号：US08603836B2

公开(公告)日：2013-12-10

申请号：US13372881

申请日：2012-02-14

Applicant: Seon Mi Yoon ,  Jae Young Choi ,  Dong Kee Yi ,  Seong Jae Choi ,  Hyeon Jin Shin

Inventor： Seon Mi Yoon ,  Jae Young Choi ,  Dong Kee Yi ,  Seong Jae Choi ,  Hyeon Jin Shin

IPC: H01L21/00

CPC classification number: H01J9/02 ,  B82Y10/00 ,  G02F1/13439 ,  H01B1/127 ,  H01B1/24 ,  H01J1/02

Abstract: Disclosed is a transparent carbon nanotube (CNT) electrode using a conductive dispersant. The transparent CNT electrode comprises a transparent substrate and a CNT thin film formed on a surface the transparent substrate wherein the CNT thin film is formed of a CNT composition comprising CNTs and a doped dispersant. Further disclosed is a method for producing the transparent CNT electrode.The transparent CNT electrode exhibits excellent conductive properties, can be produced in an economical and simple manner by a room temperature wet process, and can be applied to flexible displays. The transparent CNT electrode can be used to fabricate a variety of devices, including image sensors, solar cells, liquid crystal displays, organic electroluminescence (EL) displays and touch screen panels, that are required to have both light transmission properties and conductive properties.

Abstract translation: 公开了使用导电分散剂的透明碳纳米管（CNT）电极。 透明CNT电极包括透明基板和形成在透明基板的表面上的CNT薄膜，其中CNT薄膜由包含CNT和掺杂分散剂的CNT组合物形成。 进一步公开的是制造透明CNT电极的方法。 透明CNT电极具有优异的导电性能，可以通过室温湿法以经济和简单的方式制造，并且可以应用于柔性显示器。 透明CNT电极可用于制造具有透光性和导电性两者所需的各种装置，包括图像传感器，太阳能电池，液晶显示器，有机电致发光（EL）显示器和触摸屏面板。