公开(公告)号：EP4382474A3

公开(公告)日：2024-09-25

申请号：EP24163961.6

申请日：2018-08-31

申请人： MGI Tech Co., Ltd.

发明人： Li, Chen ,  Zhong, Cheng Frank ,  Liu, Yu ,  Ouyang, Yiwen

IPC分类号： B01L3/00 ,  B81C1/00 ,  B81B1/00 ,  B81B3/00 ,  B81B7/00 ,  B81C3/00 ,  B81C99/00

CPC分类号： B01L2400/065520130101 ,  B01L3/502715 ,  B01L3/502738 ,  B01L2200/02720130101 ,  B01L2200/068920130101 ,  B01L2300/066320130101 ,  B01L2300/088720130101 ,  B01L2300/12320130101 ,  B01L2400/0620130101 ,  B01L2300/087720130101 ,  B01L2400/04920130101

摘要： A microfluidic device includes a substrate, a sensor, and one or more lamination films. The top surface of the substrate can include first recessed grooves forming first open channels and the bottom surface of the plastic substrate can include a first recessed cavity and second recessed groves forming second open channels. A first lamination film can be adhered with the top surface of the plastic substrate to form first closed channels. A second lamination film can be adhered to the bottom surface of the plastic substrate to form second closed channels. The sensor can be on the bottom surface of the substrate such that it overlies the first recessed cavity to form a flow cell with the sensor top surface inward facing. A first closed channel can be fluidically connected with a second closed channel and a first or second closed channel can be fluidically connected with the flow cell.

公开(公告)号：EP3715934B1

公开(公告)日：2024-04-24

申请号：EP18881898.3

申请日：2018-11-09

IPC分类号： G02B26/00 ,  B81B3/00 ,  B81C99/00 ,  G01M11/00 ,  G01R1/06 ,  G01R31/28 ,  H01L21/66 ,  G01J3/26 ,  G02B5/28 ,  G01J3/02 ,  G01J3/04 ,  G01J3/06 ,  G01J5/0802 ,  G01J5/0875 ,  G01J5/04 ,  G01J5/06 ,  G01J5/10 ,  G01J3/12 ,  G01R27/26 ,  G01R31/26

CPC分类号： G02B26/001 ,  G01J3/26 ,  G01J5/045 ,  G01J5/10 ,  G01J5/0875 ,  G01J3/0202 ,  G01J2003/121320130101 ,  G01R27/2605 ,  G01R31/2834 ,  G01R31/2601 ,  G01R31/54 ,  G01M11/005 ,  G01M11/00 ,  G01J5/064 ,  G01J5/0802

公开(公告)号：EP3615470B1

公开(公告)日：2024-04-24

申请号：EP18717965.0

申请日：2018-04-24

IPC分类号： B81C99/00 ,  G04B17/04 ,  B81C3/00

CPC分类号： G04B17/045

公开(公告)号：EP3233716B1

公开(公告)日：2023-10-11

申请号：EP15823293.4

申请日：2015-12-19

发明人： TESKEY, Wesley James Emmanouel ,  TEA, Nim Hak

IPC分类号： B81B7/00 ,  B81C99/00

公开(公告)号：EP4180167A1

公开(公告)日：2023-05-17

申请号：EP22209024.3

申请日：2021-12-14

申请人： Fyzikální ústav AV CR, v. v. i.

发明人： Goodfriend, Nathan ,  Bulgakov, Alexander V.

IPC分类号： B23K26/08 ,  B23K26/57 ,  C23C14/28 ,  B81C99/00 ,  B81C1/00

摘要： The present invention relates to a method and device capable to form a nanomaterial structure (13) on a receiver (14) by transfer of nanomaterial from a donor film. In some embodiment, the transfer can be provided by laser induced forward transfer, more preferably by blister based laser induced forward transfer. The method further comprises a simultaneous scanning of the donor film (12) or the receiver (14) so that, a computer driven means for moving the receiver (14) and the donor film (12) can form high precision nanomaterial structure (13). In a preferred embodiment, the simultaneous scanning can be provided by an imaging laser generating high harmonic waves which are detected by a detector. In yet another embodiment, the receiver (14) and/or donor film (12) can be further scanned by a broadband light source(s). In a preferred embodiment, imaging laser and/or light source(s) are emitting polarized light to determine orientation of the nanoparticle deposited on the receiver (14) and forming the nanomaterial structure (13).

公开(公告)号：EP4098608A1

公开(公告)日：2022-12-07

申请号：EP22175726.3

申请日：2022-05-27

申请人： Commissariat à l'énergie atomique et aux énergies alternatives

发明人： MOLLARD, Laurent ,  NICOLAS, Stéphane ,  SAINT-PATRICE, Damien

IPC分类号： B81C99/00 ,  B25J15/06 ,  B25J7/00

摘要： L'invention concerne un microsystème électromécanique 1 comprenant un transducteur électromécanique 11, une membrane déformable 12, une première cavité 13 contenant hermétiquement un milieu déformable 14 conservant un volume constant sous l'action d'un changement de pression externe et une deuxième cavité. La membrane déformable forme une paroi de la cavité et présente au moins une zone libre 121 de se déformer de façon élastique. La zone libre forme également une paroi de la deuxième cavité. Le transducteur électromécanique est configuré de sorte que son mouvement soit fonction dudit changement de pression externe, et inversement. Un changement de pression externe dans la première cavité 13 induit une variation du volume de la deuxième cavité 20, ou inversement. Ainsi, le microsystème électromécanique proposé permet la préhension d'un objet obstruant l'ouverture de la deuxième cavité ou constitue un microbaromètre propre à convertir au moins un changement de pression ambiante en un signal électrique.

公开(公告)号：EP4031485A1

公开(公告)日：2022-07-27

申请号：EP20780126.7

申请日：2020-09-21

申请人： Top Technology Ltd ,  Sherkin Technologies Limited

发明人： LEE, Youngho ,  KIM, Yongtae ,  KIM, Sangbae ,  O'SULLIVAN, Donal

IPC分类号： B81C99/00 ,  B81C3/00

公开(公告)号：EP4015135A1

公开(公告)日：2022-06-22

申请号：EP21214337.4

申请日：2021-12-14

申请人： Fyzikální ústav AV CR, v.v.i.

发明人： Goodfriend, Nathan ,  Bulgakov, Alexander V.

IPC分类号： B23K26/08 ,  B23K26/57 ,  C23C14/28 ,  B81C99/00 ,  B81C1/00

摘要： The present invention relates to a method and device capable to form a nanomaterial structure (13) on a receiver (14) by transfer of nanomaterial from a donor film. In some embodiment, the transfer can be provided by laser induced forward transfer, more preferably by blister based laser induced forward transfer. The method further comprises a simultaneous scanning of the donor film (12) or the receiver (14) so that, a computer driven means for moving the receiver (14) and the donor film (12) can form high precision nanomaterial structure (13). In a preferred embodiment, the simultaneous scanning can be provided by an imaging laser generating high harmonic waves which are detected by a detector. In yet another embodiment, the receiver (14) and/or donor film (12) can be further scanned by a broadband light source(s). In a preferred embodiment, imaging laser and/or light source(s) are emitting polarized light to determine orientation of the nanoparticle deposited on the receiver (14) and forming the nanomaterial structure (13).

公开(公告)号：EP2589568B2

公开(公告)日：2021-09-22

申请号：EP12190569.9

申请日：2012-10-30

发明人： Glassey, Marc-André ,  Gygax, Pierre

IPC分类号： B81B3/00 ,  B81C99/00 ,  G04B17/06 ,  G04D3/00 ,  G04B15/14

公开(公告)号：EP3715934A1

公开(公告)日：2020-09-30

申请号：EP18881898.3

申请日：2018-11-09

申请人： Hamamatsu Photonics K.K.

发明人： KASAHARA Takashi ,  SHIBAYAMA Katsumi ,  HIROSE Masaki ,  KAWAI Toshimitsu ,  OYAMA Hiroki ,  KURAMOTO Yumi

IPC分类号： G02B26/00 ,  B81B3/00 ,  B81C99/00 ,  G01M11/00 ,  G01R1/06 ,  G01R31/28 ,  H01L21/66

摘要： An electrical inspection method includes: a step of preparing a wafer in which a plurality of Fabry-Perot interference filter portions is formed, each of the plurality of Fabry-Perot interference filter portions in which a distance between a first mirror portion and a second mirror portion facing each other varies by an electrostatic force, and a step of inspecting electrical characteristics of each of the plurality of Fabry-Perot interference filter portions.