公开(公告)号：KR101571311B1

公开(公告)日：2015-11-26

申请号：KR1020140089684

申请日：2014-07-16

Applicant: 한국과학기술연구원

Inventor： 김선호 ,  김재헌 ,  김철기 ,  문경순 ,  서민아 ,  우덕하 ,  이석 ,  이종창 ,  이택진 ,  정영철

IPC: G02B6/10 ,  G02B26/00

CPC classification number: G02F1/0126 ,  B82Y20/00 ,  G02B5/008 ,  G02F2203/10 ,  Y10S977/834 ,  G02B6/10 ,  G02B26/00

Abstract: 플라즈모닉전광스위치는, 그래핀층; 상기그래핀층상에위치하는제1 유전체층; 상기제1 유전체층상에위치하는나노안테나; 및상기나노안테나상에위치하는제2 유전체층을포함하되, 상기그래핀층과상기제1 유전체층사이의계면에생성되는표면플라즈몬파를통해입사빔을전파시키며, 상기나노안테나에입사되는펌프빔에의해상기나노안테나와제2 유전체층사이의계면에국소표면플라즈몬공명을발생시켜상기입사빔의세기를선택적으로감소시키도록구성될수 있다. 상기플라즈모닉전광스위치는전기적인방식을전혀사용하지않고적은광 에너지만으로도초고속으로구동이가능하여, 이를전광트랜지스터등에응용함으로써통신 IT 기기의전력소모를크게줄일수 있고, 소자속도를증가시킬수 있다.

Abstract translation: 等离子体激元光电开关包括：石墨烯层; 布置在所述石墨烯层上的第一介电层; 布置在所述第一介电层上的纳米天线; 以及布置在纳米天线上的第二电介质层。 事件豆通过在石墨烯层和第一介电层之间的界面上产生的表面等离子体波传播。 通过进入纳米天线的泵豆在纳米天线和第二介质层的界面上产生局部表面等离子体共振，从而选择性地降低了入射鲷的强度。 等离子体激光光电开关只能在没有使用电气方法的情况下以高速度运行。 等离子体激光光电开关也可以用作光电晶体管，以显着降低IT设备的功耗，同时提高设备速度。

公开(公告)号：KR101518242B1

公开(公告)日：2015-05-12

申请号：KR1020140005506

申请日：2014-01-16

Applicant: 한국과학기술연구원

Inventor： 김철기 ,  조준형 ,  김영준 ,  서민아 ,  이석 ,  이종창 ,  박종후 ,  박병호 ,  우덕하 ,  김선호 ,  김재헌 ,  이택진

IPC: G01J1/02 ,  G01J1/42

CPC classification number: G01J1/0407 ,  G01J1/0488 ,  G01J1/42

Abstract: 본명세서에서는서로이격되어배치된제1전극및 제2전극, 상기제1전극과제2전극사이에배치된하나이상의나노구조체를포함하는신호전달부-상기제1전극은신호발생부로부터신호를입력받음-, 광자를수신하고, 수신된광자를상기제1전극으로유도하기위한광 도파로를포함하는광결정격자구조부-상기광 도파로는복수의유전체구조물에의해형성됨-, 및상기제2전극으로출력되는신호를분석하여광자를검출하는단일광자검출부를포함하는상온에서이용가능한단일광자검출장치및 이단일광자검출장치를이용한단일광자검출방법이개시된다.

Abstract translation: 公开了一种用于在室温下检测单个光子的装置及其方法。 该装置和方法包括：彼此分离的第一电极和第二电极; 信号中继单元，其具有设置在所述第一电极和所述第二电极之间的至少一个纳米结构，其中所述第一电极从信号产生单元接收信号; 光学晶格结构单元，其接收光子并具有由多个介电结构构成的光波导，用于将接收的光子引导到第一电极; 以及用于分析输出到第二电极的信号以检测光子的单个光子检测单元。

公开(公告)号：KR101473653B1

公开(公告)日：2014-12-18

申请号：KR1020120105371

申请日：2012-09-21

Applicant: 한국과학기술연구원

Inventor： 이택진 ,  이석 ,  김선호 ,  김재헌 ,  신범주 ,  김철기 ,  전영민

IPC: G01C21/12 ,  G01C22/00 ,  G01C23/00

CPC classification number: G01C21/12 ,  G01B21/00 ,  G01C22/006

Abstract: 본발명은상기한종래기술의문제점을해결하기위하여, 실내에서모바일기기를휴대한보행자에게보행자의불특정행동패턴이나모션에상관없이자연스럽게보행자의위치를추정하여실시간으로위치정보를보행자에게제공할수 있는보행자모션인식을통한보행자위치추정장치및 그방법을제공하는데그 목적이있다. 이를위하여본 발명에의한보행자위치추정방법은, 보행자의복수의모션들중 특정모션을인식하는단계; 복수의모션들각각에대한고유보행자추측항법기술(PDR) 중상기인식된특정모션에대응하는고유보행자추측항법기술(PDR)을수행하는단계; 및상기수행된고유보행자추측항법기술(PDR)에의해보행자의위치를추정하는단계를포함하여이루어진다.

公开(公告)号：KR101467921B1

公开(公告)日：2014-12-11

申请号：KR1020130027196

申请日：2013-03-14

Applicant: 한국과학기술연구원

Inventor： 이택진 ,  이석 ,  우덕하 ,  변영태 ,  김재헌 ,  이정호 ,  신범주 ,  김철기 ,  전영민 ,  김선호

IPC: G01C5/06 ,  H04B1/40

Abstract: 본발명은기존방식과같은네트워크의도움없이사용자단말에탑재되어있는기압센서만을이용하여고도측정이가능하여특히고층건물의실내에서휴대용단말기가위치한정확한층 수정보를취득할수 있는, 가상캘리브레이션을이용하여고도를측정하는방법및 이를수행하도록구성된휴대용단말에관한것이다. 본발명의상기목적은, (a) 위성항법신호를수신하는단계; (b) 상기위성항법에의한사용자의위치추적중 위성항법음영지역으로의진입여부를판단하는단계; (c) 상기위성항법음영지역의시작위치에서의초기고도값과초기기압값을저장하는단계; 및 (d) 상기초기고도값과초기기압값을기초로하여사용자단말의기압센서에의해측정된기압값의변화를통하여사용자의고도를추정하는단계를포함하여이루어지는, 가상캘리브레이션을이용한휴대용단말의고도측정방법을제공함에의하여달성될수 있다.

公开(公告)号：KR101449658B1

公开(公告)日：2014-10-15

申请号：KR1020130060300

申请日：2013-05-28

Applicant: 한국과학기술연구원

Inventor： 김재헌 ,  전성찬 ,  오주영 ,  이석 ,  이택진 ,  우덕하 ,  김선호 ,  김철기 ,  임주환

IPC: H01L31/04 ,  C09K11/08

CPC classification number: H01L31/055 ,  C09K11/02 ,  C09K11/65 ,  C09K11/87 ,  H01L33/502 ,  Y02E10/52

Abstract: A photoluminescence wavelength tunable material comprises a composite including a graphene oxide layer and metal nanoparticles attached on the graphene oxide layer. The photoluminescence wavelength of the graphene oxide (color of emitted light) can be tuned while a structure and physical properties of the graphene oxide is maintained by boding the metal nanoparticles to the graphene oxide. The photoluminescence wavelength tunable material can be applied to an energy harvesting element such as a solar cell with low loss and high efficiency.

Abstract translation: 光致发光波长可调谐材料包括复合物，其包括石墨烯氧化物层和附着在石墨烯氧化物层上的金属纳米颗粒。 氧化石墨烯的发光波长（发射光的颜色）可以通过将金属纳米颗粒粘合到石墨烯氧化物上而保持氧化石墨烯的结构和物理性质而被调整。 光致发光波长可调谐材料可以应用于能量收集元件，例如具有低损耗和高效率的太阳能电池。

公开(公告)号：KR101439407B1

公开(公告)日：2014-09-15

申请号：KR1020130056408

申请日：2013-05-20

Applicant: 한국과학기술연구원

Inventor： 김재헌 ,  송현석 ,  이석 ,  김선호 ,  이택진 ,  오주영 ,  조준형 ,  김철기 ,  우덕하

IPC: G01J3/42 ,  G01N27/26

CPC classification number: G01J3/50 ,  G01J1/42 ,  G01J3/2803 ,  H01L51/0093 ,  H01L51/428 ,  Y10T29/49002

Abstract: A photoreceptor protein-based spectrophotometer may include: a field effect transistor (FET); and photoreceptor protein positioned on the FET, and causing a change in the electrical characteristic by being activated by the absorption of light. The spectrophotometer can copy the human visual organ directly using the human photoreceptor protein by converting light absorbed by the photoreceptor protein into an electric signal using the FET. The spectrophotometer can measure color, intensity, etc. according to the wavelength of light, such as the human visual organ, in combination, and can be applied to the development of an artificial visual organ or the like.

Abstract translation: 基于感光蛋白的分光光度计可以包括：场效应晶体管（FET）; 和位于FET上的感光体蛋白质，并且通过被吸收光激活而导致电特性的变化。 分光光度计可以使用人体感受器蛋白直接复制人类视觉器官，通过将感光体蛋白质吸收的光转换为电信号。 分光光度计可以根据诸如人类视觉器官的光的波长来组合测量颜色，强度等，并且可以应用于人造视觉器官等的开发。

公开(公告)号：KR101402989B1

公开(公告)日：2014-06-11

申请号：KR1020130067285

申请日：2013-06-12

Applicant: 한국과학기술연구원

Inventor： 변영태 ,  김선호 ,  전영민 ,  김은경 ,  김재성 ,  우덕하

IPC: H01L21/336 ,  H01L29/78

CPC classification number: H01L51/0003 ,  H01L51/0026 ,  H01L51/0048 ,  H01L51/0508 ,  H01L51/0545 ,  Y10S977/742 ,  H01L29/0669 ,  H01L21/324

Abstract: The present invention relates to a method of fabricating a carbon nanotube-based field effect transistor having improved adhesive strength with respect to a substrate, and the carbon nanotube-based field effect transistor fabricated thereby. The method of fabricating the carbon nanotube-based field effect transistor includes the steps of: forming an oxide layer on a substrate; forming a photoresist pattern on the oxide layer; forming a metal layer on an entire surface of a sample including a photoresist pattern; a lift-off step of removing the photoresist; absorbing a carbon nanotube on the substrate without the photoresist; performing heat treatment for the substrate in which the carbon nanotube is absorbed; and removing the metal layer. According to the present invention, since adhesive strength between the substrate and the carbon nanotube is improved, stability and reliability of a field effect transistor may be improved. When the field effect transistor is applied to a liquid sensor, a life of the sensor may extend and the reliability with respect to a result measured using the sensor may be improved.

Abstract translation: 本发明涉及一种制造相对于基板具有改善的粘合强度的碳纳米管系场效应晶体管的方法，以及由此制造的基于碳纳米管的场效应晶体管。 制造基于碳纳米管的场效应晶体管的方法包括以下步骤：在衬底上形成氧化物层; 在所述氧化物层上形成光致抗蚀剂图案; 在包括光致抗蚀剂图案的样品的整个表面上形成金属层; 去除光致抗蚀剂的剥离步骤; 在没有光刻胶的基板上吸收碳纳米管; 对其中吸收碳纳米管的基板进行热处理; 并去除金属层。 根据本发明，由于提高了基板和碳纳米管之间的粘合强度，因此可以提高场效应晶体管的稳定性和可靠性。 当场效应晶体管被施加到液体传感器时，传感器的寿命可以延长，并且可以提高使用传感器测量的结果的可靠性。

公开(公告)号：KR1020140065589A

公开(公告)日：2014-05-30

申请号：KR1020120130423

申请日：2012-11-16

Applicant: 한국과학기술연구원

Inventor： 전명석 ,  전지훈 ,  우덕하 ,  전영민 ,  김선호 ,  변영태

IPC: G01P5/00 ,  G01N15/14

CPC classification number: G01N15/14 ,  G01N2015/0003 ,  G01P5/00 ,  G06T1/0007

Abstract: Disclosed are a device and a method for promptly and accurately calculating the speed distribution of a fluid by collectively processing image data obtained by photographing the flow within a microfluidic channel having distracted fluorescent tracer particles of thin concentration, and a computer readable recording medium for recording a program to perform the method. The device and the method of the present invention can supply a suspended fluid having the distracted tracer particles to the microfluidic channel, obtain multiple sets of image data including one or multiple particle traces during the exposure time of a camera through the observation using a fluorescent microscope, and very promptly and accurately calculate the speed distribution of the fluid by collectively processing the obtained image data. The calculated speed distribution of the fluid can provide very important information associated with the flow control, the distraction control, the separation and/or the analysis.

Abstract translation: 公开了通过共同处理通过拍摄具有分散的浓度较小的荧光示踪剂颗粒的微流体通道内的流动获得的图像数据及用于记录液体的计算机可读记录介质，来迅速准确地计算流体的速度分布的装置和方法 程序来执行该方法。 本发明的装置和方法可以将具有分散的示踪剂颗粒的悬浮液体提供给微流体通道，通过使用荧光显微镜的观察在相机的曝光时间期间获得多组图像数据，包括一个或多个颗粒轨迹 并且通过集中处理所获得的图像数据非常及时且准确地计算流体的速度分布。 流体的计算速度分布可以提供与流量控制，牵引力控制，分离和/或分析相关联的非常重要的信息。

公开(公告)号：KR101369392B1

公开(公告)日：2014-03-06

申请号：KR1020130000695

申请日：2013-01-03

Applicant: 한국과학기술연구원

Inventor： 전영민 ,  장지웅 ,  전명석 ,  이석 ,  김재헌 ,  김철기 ,  우덕하 ,  이택진 ,  변영태 ,  김선호

IPC: G01N25/00 ,  G01N33/483 ,  A61N5/067

CPC classification number: G01N33/574 ,  G01N33/587

Abstract: The present invention relates to a method for analyzing coupling efficiency of adhesive nano particles, comprising the steps of (a) injecting a solution including nano particles into a first chamber slide; (b) vaporizing only the solution from the first chamber slide into which the solution including nano particles is injected and irradiating light from a light source to measure a saturation temperature by a thermal observation acquisition device; (c) injecting cells into a second chamber slide; (d) injecting the solution including nano particles into the second chamber slide in which the cells are cultured; (e) removing the nano particles which are not coupled to the cells from the second chamber slide into which the cells and nano particles are injected; (f) vaporizing only the solution from the second chamber slide from which the nano particles are removed and irradiating light from the light source to measure the saturation temperature by a thermal observation acquisition device; and (g) comparing the number per area of the nano particles injected into the first chamber slide and the number per area of the nano particles injected into the second chamber slide at the same saturation temperature between the step (b) and the step (f). [Reference numerals] (a,b,c,d) Measure a saturation temperature according to concentration; (AA) GNP solution; (BB) High concentration; (CC) Low concentration; (DD,HH,OO,TT) Temperature; (EE,II,PP,UU) Saturation temperature; (FF,JJ,QQ,VV) Time; (GG) Medium solution; (KK) Cell medium solution; (LL) Combined GNP solution; (MM,RR) GNP high concentration; (NN,SS) GNP low concentration

Abstract translation: 本发明涉及一种用于分析粘合剂纳米颗粒的偶联效率的方法，包括以下步骤：（a）将包含纳米颗粒的溶液注入第一室载玻片; （b）仅蒸发来自第一室玻片的溶液，其中注入包含纳米颗粒的溶液，并且通过热观察获取装置照射来自光源的光以测量饱和温度; （c）将细胞注入第二室载玻片; （d）将包含纳米颗粒的溶液注入培养细胞的第二室载玻片中; （e）从未注入细胞和纳米颗粒的第二腔室移除未与细胞结合的纳米颗粒; （f）仅从去除纳米颗粒的第二室载玻片中蒸发溶液并照射来自光源的光，以通过热观察获取装置测量饱和温度; 和（g）在步骤（b）和步骤（f）之间比较在相同饱和温度下将注入到第一室载玻片中的纳米颗粒的面积数和每个注入第二室载玻片的面积数 ）。 [参考数字]（a，b，c，d）根据浓度测量饱和温度; （AA）GNP溶液; （BB）高浓度; （CC）低浓度; （DD，HH，OO，TT）温度; （EE，II，PP，UU）饱和温度; （FF，JJ，QQ，VV）时间; （GG）中溶液; （KK）细胞培养液; （LL）组合GNP解决方案; （MM，RR）GNP高浓度; （NN，SS）GNP低浓度

公开(公告)号：KR101310866B1

公开(公告)日：2013-09-25

申请号：KR1020110044490

申请日：2011-05-12

Applicant: 한국과학기술연구원

Inventor： 전영민 ,  변영태 ,  장지웅 ,  김경헌 ,  이석 ,  우덕하 ,  김선호

IPC: B82B3/00 ,  B01J19/08

CPC classification number: B82Y30/00 ,  B82Y10/00 ,  B82Y40/00 ,  H01L51/0003 ,  H01L51/0018 ,  H01L51/0048 ,  H01L51/0508 ,  H01L51/0512

Abstract: 본 발명은 반도체 구조물 상에 탄소나노튜브 입자를 흡착하고, 흡착된 탄소나노튜브 입자에 산소 플라즈마 처리를 수행함으로써 흡착된 탄소나노튜브 중 일부를 제거시키는 단계를 포함하여 탄소나노튜브 소자에서 탄소나노튜브 양을 조절하는 방법을 제공한다.