公开(公告)号：US20180066384A1

公开(公告)日：2018-03-08

申请号：US15561485

申请日：2016-03-22

Applicant: Bong Hee LEE ,  Kyu Sang LEE

Inventor： Bong Hee LEE ,  Kyu Sang LEE

IPC: D01F1/10 ,  D01F1/09 ,  C01G3/12 ,  C01G3/10 ,  C01G3/05 ,  C07C211/09 ,  C07C211/13

CPC classification number: D01F1/10 ,  C01G3/05 ,  C01G3/10 ,  C01G3/12 ,  C07C211/09 ,  C07C211/13 ,  D01F1/09 ,  D06M11/53 ,  D06M11/56 ,  D06M13/332 ,  G01N21/3581

Abstract: The present invention relates to a functional copper sulfide composition and a functional fiber prepared therefrom, and more particularly, a functional copper sulfide composition comprising a copper salt, a metal salt, a reducing agent, a sulfur compound, a catalyst, a polyvalent amine, an alkali compound and a pH adjusting agent; and a functional fiber prepared by treating the composition with a fiber.The present invention can provide a functional fiber with excellent conductivity, washing resistance, washability, durability, moisture resistance and alkali resistance, wherein the color of the fiber is maintained even when it is washed repeatedly or used for a long time.In addition, the present invention can provide a functional fiber which has excellent an antibacterial, deodorant, far-infrared radiation, wound healing, skin aging prevention, insulation, electromagnetic shielding and static electricity removal characteristics, and can be widely used in clothing, industrial and military field such as clothing, socks, gloves, bands, abdominal binder, masks, hats, bandage, scarf, bedclothes, burn pad, a hospital gown, an industrial filter and filler.

公开(公告)号：US08848051B2

公开(公告)日：2014-09-30

申请号：US12703843

申请日：2010-02-11

Applicant: Kyu-sang Lee ,  Carl S. Brown ,  Kyla Teplitz ,  Steve Goodson

Inventor： Kyu-sang Lee ,  Carl S. Brown ,  Kyla Teplitz ,  Steve Goodson

IPC: G01N21/55 ,  G01N21/64 ,  G06T7/00

CPC classification number: G01N21/6452 ,  G01N21/6456 ,  G01N21/6486 ,  G06T7/75 ,  G06T2207/10056 ,  G06T2207/30024 ,  G06T2207/30204

Abstract: An apparatus for scanning a biometric device includes a camera that scans the biometric device to generate images, and a computer that extracts data from the images. The computer measures three-dimensional locations of at least three different positions on a surface of the biometric device, determines a virtual approximation plane or a curved surface with respect to the surface of the biometric device based on the measured three-dimensional locations, determines imaging locations of two or more panels disposed on the biometric device based on the virtual approximation plane or the curved surface, obtains individual images of the two or more panels by scanning the biometric device based on the determined imaging locations, and extracts overall data of the biometric device from the individual images of the two or more panels.

Abstract translation: 用于扫描生物测定装置的装置包括扫描生物测定装置以产生图像的相机以及从图像中提取数据的计算机。 计算机测量生物测定装置的表面上的至少三个不同位置的三维位置，基于测量的三维位置确定相对于生物测定装置的表面的虚拟近似平面或曲面，确定成像 基于虚拟近似平面或曲面设置在生物测定装置上的两个或更多个面板的位置通过基于确定的成像位置扫描​​生物测定装置来获得两个或更多个面板的单独图像，并且提取生物测定装置的总体数据 设备从两个或多个面板的各个图像。

公开(公告)号：US08635371B2

公开(公告)日：2014-01-21

申请号：US12635902

申请日：2009-12-11

Applicant: Seung-hwan Kim ,  Je-soo Ko ,  June-koo Rhee ,  Kyu-sang Lee ,  Chan-kyun Lee ,  Ji-hoon Sung

Inventor： Seung-hwan Kim ,  Je-soo Ko ,  June-koo Rhee ,  Kyu-sang Lee ,  Chan-kyun Lee ,  Ji-hoon Sung

IPC: G06F15/16

CPC classification number: H04J3/0667

Abstract: A method and apparatus for processing a timestamp using signature information on a physical layer is provided. The timestamp processing terminal uses a pseudo-random binary sequence to assign signature information to a message which is to be sent to another terminal, and verifies the signature information on a physical layer. The signature information is used to identify the message as a sync message. Accordingly, it is possible to precisely process the timestamp.

Abstract translation: 提供了一种使用物理层上的签名信息处理时间戳的方法和装置。 时间戳处理终端使用伪随机二进制序列将签名信息分配给要发送到另一终端的消息，并且验证物理层上的签名信息。 签名信息用于将消息标识为同步消息。 因此，可以精确地处理时间戳。

公开(公告)号：US08554492B2

公开(公告)日：2013-10-08

申请号：US13074860

申请日：2011-03-29

Applicant: Tae-jin Ahn ,  Kyu-Sang Lee

Inventor： Tae-jin Ahn ,  Kyu-Sang Lee

IPC: G06F19/00 ,  G06F15/00 ,  G11C17/00 ,  C12Q1/68

CPC classification number: G06F17/30985 ,  G06F19/22

Abstract: A method and apparatus for searching compressed nucleic acid sequences are disclosed. In the method, a reference sequence is compared with a subject sequence to be encoded, the subject sequence is compressed, an index is created with respect to the reference sequence and the compressed subject sequence, a position corresponding to a query is searched for in the compressed subject sequence using the index, a character found at the position within the compressed sequence is converted into a sequence, and the sequence is output as the response to the query.

Abstract translation: 公开了一种用于搜索压缩的核酸序列的方法和装置。 在该方法中，将参考序列与要编码的主题序列进行比较，主题序列被压缩，相对于参考序列和压缩主题序列创建索引，在相关于查询的位置搜索与 使用该索引的压缩主题序列，将在压缩序列内的位置处找到的字符转换为序列，并且将该序列作为对该查询的响应输出。

公开(公告)号：US20130162328A1

公开(公告)日：2013-06-27

申请号：US13439637

申请日：2012-04-04

Applicant: Jin Uk Lee ,  Kyu Sang Lee ,  Young Woo Lee ,  Jung Ryoul Yim ,  Jae Hun Kim ,  Seul Gi Kim ,  Choong Hee Lee

Inventor： Jin Uk Lee ,  Kyu Sang Lee ,  Young Woo Lee ,  Jung Ryoul Yim ,  Jae Hun Kim ,  Seul Gi Kim ,  Choong Hee Lee

IPC: H03K17/96 ,  H01L41/22

CPC classification number: G06F3/044 ,  G06F2203/04103 ,  G06F2203/04111 ,  G06F2203/04112 ,  Y10T29/42

Abstract: Disclosed herein are a touch panel and a method for manufacturing the same. The touch panel 100 according to preferred embodiments of the present invention includes: first electrode patterns 120 containing silver formed by selectively exposing/developing silver salt emulsion layers and formed as fine patterns on one surface of the transparent substrate 110; first wirings 160 that are integrally formed with the first electrode patterns 120; second electrode patterns 130 containing silver formed by selectively exposing/developing the silver salt emulsion layers 150 and formed on the other surface as fine patterns of the transparent substrate 110; second wirings 170 integrally formed with the second electrode patterns 130; and optical filter layers 140 that are formed between one surface of the transparent substrate 110 and the first electrode patterns 120 or between the other surface of the transparent substrate 110 and the second electrode patterns 130 to selectively block light.

Abstract translation: 这里公开了触摸面板及其制造方法。 根据本发明优选实施例的触摸面板100包括：第一电极图案120，其包含通过选择性地曝光/显影银盐乳剂层而形成的银，并且在透明基板110的一个表面上形成为精细图案; 与第一电极图案120一体形成的第一布线160; 通过选择性地曝光/显影银盐乳剂层150并形成在另一表面上形成的银的第一电极图案130作为透明基板110的精细图案; 与第二电极图案130一体形成的第二布线170; 以及形成在透明基板110的一个表面和第一电极图案120之间或者在透明基板110的另一个表面和第二电极图案130之间的滤光器层140，以选择性地阻挡光。

公开(公告)号：US08038943B2

公开(公告)日：2011-10-18

申请号：US11695905

申请日：2007-04-03

Applicant: Kyu-tae Yoo ,  Kyu-sang Lee ,  Won-seok Chung ,  Jeo-young Shim ,  Yeon-ja Cho

Inventor： Kyu-tae Yoo ,  Kyu-sang Lee ,  Won-seok Chung ,  Jeo-young Shim ,  Yeon-ja Cho

IPC: G01N27/00

CPC classification number: G01N33/54373

Abstract: A method of detecting a presence of bio-molecules, or a concentration of the target bio-molecules using a field effect transistor, includes allowing a first sample including a first target bio-molecule to contact a sensing surface of the field effect transistor and measuring a change in an electric signal of the field effect transistor, the field effect transistor including a substrate, a source region and a drain region, the source region and the drain region formed apart from each other on the substrate, the source region and the drain region each doped to having an opposite polarity than a polarity of the substrate, a channel region disposed between the source region and the drain region and an insulating layer including the sensing surface, the insulating layer disposed on the channel region.

Abstract translation: 使用场效应晶体管检测生物分子的存在或靶生物分子的浓度的方法包括允许包含第一靶生物分子的第一样品接触场效应晶体管的感测表面并测量 场效应晶体管的电信号的变化，所述场效应晶体管包括基板，源极区和漏极区，在所述基板上彼此分离形成的所述源极区和漏极区，所述源极区和漏极 每个被掺杂为具有与衬底的极性相反的极性，设置在源区和漏区之间的沟道区和包括感测表面的绝缘层，绝缘层设置在沟道区上。

公开(公告)号：US07859029B2

公开(公告)日：2010-12-28

申请号：US11621191

申请日：2007-01-09

Applicant: Kyu-sang Lee ,  Kyu-tae Yoo ,  Jeo-young Shim ,  Jin-tae Kim ,  Yeon-ja Cho

Inventor： Kyu-sang Lee ,  Kyu-tae Yoo ,  Jeo-young Shim ,  Jin-tae Kim ,  Yeon-ja Cho

IPC: H01L29/78

CPC classification number: G01N33/54373 ,  C12Q1/6825 ,  G01N27/4145

Abstract: Provided are a FET-based sensor for detecting an ionic material, an ionic material detecting device including the FET-based sensor, and a method of detecting an ionic material using the FET-based sensor. The FET-based sensor includes: a sensing chamber including a reference electrode and a plurality of sensing FETs; and a reference chamber including a reference electrode and a plurality of reference FETs. The method includes: flowing a first solution into and out of the sensing chamber and the reference chamber of the FET-based sensor; flowing a second solution expected to contain an ionic material into and out of the sensing chamber while continuously flowing the first solution into and out of the reference chamber; measuring a current in a channel region between the source and drain of each of the sensing and reference FETs; and correcting the current of the sensing FETs.

Abstract translation: 提供了一种用于检测离子材料的基于FET的传感器，包括基于FET的传感器的离子材料检测装置，以及使用基于FET的传感器检测离子材料的方法。 基于FET的传感器包括：感测室，包括参考电极和多个感测FET; 以及包括参考电极和多个参考FET的参考室。 该方法包括：使第一溶液流入和流出基于FET的传感器的感测室和参考室; 使预期含有离子材料的第二溶液流入和流出感测室，同时使第一溶液持续流入和移出参考室; 测量每个感测和参考FET的源极和漏极之间的沟道区域中的电流; 并校正感测FET的电流。

公开(公告)号：US07839134B2

公开(公告)日：2010-11-23

申请号：US11619650

申请日：2007-01-04

Applicant: Kyu-sang Lee ,  Kyu-tae Yoo ,  Jeo-young Shim ,  Won-seok Chung ,  Yeon-ja Cho

Inventor： Kyu-sang Lee ,  Kyu-tae Yoo ,  Jeo-young Shim ,  Won-seok Chung ,  Yeon-ja Cho

IPC: G01N27/00

CPC classification number: G01N27/4145 ,  G01N27/27

Abstract: A method for simultaneously detecting a size and concentration of ionic materials includes measuring voltage drop values of at least three ionic materials of which sizes and concentrations are known using each of at least two FET-based sensors having different electrical characteristics, determining at least three points in a three-dimensional plot from the known sizes, concentrations and the measured voltage drop values, approximating the at least three points into a single plane, measuring a voltage drop value of an ionic material of which size and concentration are unknown using the at least two FET-based sensors, determining equipotential lines existing on the plane using the voltage drop value of the unknown ionic material and determining a cross point between each of the equipotential lines.

Abstract translation: 用于同时检测离子材料的尺寸和浓度的方法包括测量至少三种离子材料的电压降值，其中尺寸和浓度已知使用具有不同电特性的至少两个基于FET的传感器中的每一个，确定至少三个点 在已知尺寸，浓度和测量的电压降值的三维图中，将至少三个点近似为单个平面，测量其尺寸和浓度未知的离子材料的电压降值，至少使用至少 两个基于FET的传感器，使用未知离子材料的电压降值确定在平面上存在的等电位线，并确定每个等电位线之间的交叉点。

公开(公告)号：US20100210475A1

公开(公告)日：2010-08-19

申请号：US12704163

申请日：2010-02-11

Applicant: Kyu-sang LEE ,  Seong-ho CHO ,  Carl S. BROWN ,  Kyla TEPLITZ

Inventor： Kyu-sang LEE ,  Seong-ho CHO ,  Carl S. BROWN ,  Kyla TEPLITZ

IPC: C40B30/10 ,  B32B3/10 ,  C40B40/00 ,  G03F7/20

CPC classification number: B01J19/0046 ,  B01J2219/0054 ,  B01J2219/0056 ,  B01J2219/00608 ,  B01J2219/00693 ,  Y10T428/24802

Abstract: A substrate includes; a fiducial mark disposed on the substrate, an area on the substrate on which a probe material is configured to be immobilized, the area being separated from the fiducial mark, and a probe immobilization compound disposed on the area on the substrate on which the probe material is configured to be immobilized, wherein the fiducial mark has a structure which reflects irradiated light at a greater intensity than an intensity of reflected irradiated light form the area on the substrate not corresponding to the fiducial mark.

Abstract translation: 基板包括： 设置在基板上的基准标记，基板上的被配置为固定的探针材料的区域，与基准标记分离的区域，以及设置在基板上的探针固定化合物上的探针固定化合物，探针材料 被配置为被固定，其中基准标记具有以比反射的照射光的强度更大的强度反射照射的光的结构，形成不对应于基准标记的基板上的区域。

公开(公告)号：US07585634B2

公开(公告)日：2009-09-08

申请号：US11971585

申请日：2008-01-09

Applicant: Byung-chul Kim ,  Jhin-gook Kim ,  Nam Hur ,  Kyu-sang Lee ,  Dae-soon Son ,  Kyung-hee Park ,  Tae-jin Ahn

Inventor： Byung-chul Kim ,  Jhin-gook Kim ,  Nam Hur ,  Kyu-sang Lee ,  Dae-soon Son ,  Kyung-hee Park ,  Tae-jin Ahn

IPC: C12Q1/68 ,  G01N33/53 ,  C12N15/11 ,  C12N15/12

CPC classification number: C40B40/06 ,  C12Q1/6886 ,  C12Q2600/112 ,  C12Q2600/118 ,  C12Q2600/158 ,  C40B30/04 ,  Y10S977/792

Abstract: Provided is a method of predicting risk of lung cancer recurrence in a lung cancer patient or after a patient has lung cancer treatment, the method including: obtaining a biological sample from a lung cancer patient; measuring an expression level of at least one marker gene from the biological sample, the marker gene being selected from the group consisting of marker genes of Table 1, 2 or 3, to obtain data for the expression level of the marker gene; and determining whether the expression level of the marker gene corresponds to an expression level of a recurrence group or an expression level of a non-recurrence group.

Abstract translation: 本发明提供一种预测肺癌患者的肺癌复发风险或患者进行肺癌治疗后的方法，该方法包括从肺癌患者获得生物样品; 测定来自生物样品的至少一种标记基因的表达水平，所述标记基因选自表1,2或3的标记基因，以获得标记基因表达水平的数据; 确定标记基因的表达水平是否符合复发组的表达水平或非复发组的表达水平。