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公开(公告)号:US09583650B1
公开(公告)日:2017-02-28
申请号:US15052305
申请日:2016-02-24
Inventor: Kyoungsik Yu , Kyungmok Kwon , Kyunghan Choi
IPC: H01L29/00 , H01L31/0232 , G02B6/122 , G01N21/65 , B82Y10/00 , H01L49/00 , G02B5/00 , G01N21/552
CPC classification number: H01L31/0232 , B82Y10/00 , G01N21/554 , G02B5/008 , G02B6/1226 , G02F2203/10 , H01L49/00 , H04B10/502 , H04B10/80
Abstract: Provided are a integrated plasmonic circuit including a plasmonic source using a surface plasmon resonance phenomenon, a plasmonic detector detecting an optical signal generated in the plasmonic source, and a link structure between the plasmonic source and the plasmonic detector, that is, a signal transferring part, and a method of manufacturing the same. Provided are a integrated plasmonic circuit capable of realizing both of miniaturization and speed improvement by overcoming both of a limitation of an electronic device in terms of a signal speed in spite of being excellent in terms of miniaturization efficiency and a limitation of an existing optical device in terms of miniaturization due to a diffraction limitation of light in spite of being improved in terms of a signal speed, and a method of manufacturing the same.
Abstract translation: 提供了一种包括使用表面等离子体共振现象的等离激元源的等离子体激元电路,等离子体激元源中产生的光信号的等离子体检测器以及等离激元源和等离子体激元检测器之间的链接结构,即信号传递部分 ,及其制造方法。 提供了一种集成等离子体电路,其能够尽可能优越的小型化效率和现有的光学装置的限制,克服了电子设备在信号速度方面的限制,而实现了小型化和速度改善两者 尽管在信号速度方面得到改善,但是由于光的衍射限制引起的小型化的术语及其制造方法。
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公开(公告)号:US09855618B2
公开(公告)日:2018-01-02
申请号:US14623155
申请日:2015-02-16
Inventor: Kyoungsik Yu , Kyungmook Kwon , Jaeho Shim , Kyunghan Choi
CPC classification number: B23K1/20 , B23K1/0056 , C23C18/1216 , C23C18/14
Abstract: Provided are a method of soldering a functionalized metal oxide, and an electronic device manufactured thereby, and more particularly, a method of soldering a functionalized metal oxide which is capable of growing a solder structure by a hydrothermal synthesis method using a pulsed laser, and is usable in a UV sensor, and an electronic device manufactured thereby. According to the present invention, thermal diffusion generated from a laser is limited due to the use of a pulsed laser, and thus, nanosolder having high density and a shape to be precisely adjustable may be prepared by a hydrothermal synthesis method by the pulsed laser, thereby facilitating the joining of the nanostructure, and further, the nanosolder is formed between the nanostructures, thereby being usable as a metal oxide structure having functionality.
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3.发明申请Functionalized Metal Oxide Soldering Methods and UV Sensor Manufactured Thereof 有权功能化金属氧化物焊接方法和UV传感器制造公开(公告)号:US20160158864A1
公开(公告)日:2016-06-09
申请号:US14623155
申请日:2015-02-16
Inventor: Kyoungsik Yu , Kyungmook Kwon , Jaeho Shim , Kyunghan Choi
CPC classification number: B23K1/20 , B23K1/0056 , C23C18/1216 , C23C18/14
Abstract: Provided are a method of soldering a functionalized metal oxide, and an electronic device manufactured thereby, and more particularly, a method of soldering a functionalized metal oxide which is capable of growing a solder structure by a hydrothermal synthesis method using a pulsed laser, and is usable in a UV sensor, and an electronic device manufactured thereby. According to the present invention, thermal diffusion generated from a laser is limited due to the use of a pulsed laser, and thus, nanosolder having high density and a shape to be precisely adjustable may be prepared by a hydrothermal synthesis method by the pulsed laser, thereby facilitating the joining of the nanostructure, and further, the nanosolder is formed between the nanostructures, thereby being usable as a metal oxide structure having functionality.
Abstract translation: 提供一种焊接官能化金属氧化物的方法及其制造的电子器件,更具体地,涉及一种通过使用脉冲激光器的水热合成方法来焊接能够生长焊料结构的官能化金属氧化物的方法,并且是 可用于UV传感器,以及由此制造的电子设备。 根据本发明,由于使用脉冲激光,激光产生的热扩散受到限制,因此可以通过脉冲激光器的水热合成方法制备具有高密度和形状精确调节的纳米涂料, 从而有助于纳米结构的接合,此外,纳米结构体之间形成纳米结构,从而可用作具有官能团的金属氧化物结构。
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