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公开(公告)号:US20220005534A1
公开(公告)日:2022-01-06
申请号:US17246900
申请日:2021-05-03
Inventor: Jae Woo LEE , Soo Hyun KIM , Dong Hyun KIM , Dong Geun PARK , Geun Soo YANG , Jung Chun KIM , Sae Yan CHOI
Abstract: A method for measuring interference in a memory device is provided. The method includes: programming a selected memory cell among a plurality of memory cells connected in series between a bit line and a source line; measuring a first noise value of the programmed selected memory cell; programming an adjacent memory cell adjacent to the selected memory cell among the plurality of memory cells; measuring a second noise value of the selected memory cell, after the programming of the adjacent memory cell is completed; and determining interference on the selected memory cell based on the first noise value and the second noise value. The first noise value and the second noise value are measured by detecting a low frequency noise of a cell current of the selected memory cell.
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公开(公告)号:US20230231027A1
公开(公告)日:2023-07-20
申请号:US18148815
申请日:2022-12-30
Applicant: SK hynix Inc. , Chungbuk National University Industry-Academic Cooperation Foundation , Korea University Research and Business Foundation, Sejong Campus , Korea Institute of Energy Research
Inventor: Ka-Hyun KIM , Hyun Seok LEE , Jae Woo LEE , Joon-Ho OH
IPC: H01L29/45 , H01L21/285
CPC classification number: H01L29/45 , H01L21/28518
Abstract: Disclosed are a method of forming a contact structure, a method of fabricating a semiconductor device, a contact structure, and a semiconductor device including the same. A method of forming a contact structure may comprise forming a porous silicon layer on a substrate by using an epitaxy process, forming a dielectric layer on the porous silicon layer, forming a metal layer on the dielectric layer, forming a silicide member having a three-dimensional structure in the porous silicon layer by diffusing metal atoms of the metal layer into the porous silicon layer through the dielectric layer and reacting the diffused metal atoms with the porous silicon layer in a heat treatment process, removing the metal layer and the dielectric layer, and forming a conductive layer in contact with the silicide member.
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公开(公告)号:US20210230020A1
公开(公告)日:2021-07-29
申请号:US17227581
申请日:2021-04-12
Inventor: Jae Woo LEE , Young Chul CHOI , Ou Kyung CHOI , Gyu Dong KIM , Dan Dan DONG , Jun Ho SEO
IPC: C02F1/26
Abstract: Disclosed is a desalination apparatus using a solvent extraction scheme. The desalination apparatus using a solvent extraction scheme includes a source water supply module configured to supply source water including salt of a first concentration and water, a functional solvent supply module configured to supply a functional solvent, of which the solubility in water varies according to temperature, a mixing module configured to mix the source water from the source water supply module and the functional solvent from the functional solvent supply module, a first separation module configured to receive mixture water, in which the source water and the functional solvent are mixed, from the mixing module, and dissolve the water contained in the source water in the functional solvent, a salt crystallization module configured to receive the source water including salt of a second concentration that is higher than the first concentration, from which the water has been removed, from the first separation module, and a second separation module configured to receive the functional solvent, in which the water has been dissolved, from the first separation module, and thermally separate the water and the functional solvent at a second temperature that is higher than the first temperature.
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公开(公告)号:US20220250941A1
公开(公告)日:2022-08-11
申请号:US17727227
申请日:2022-04-22
Inventor: Jae Woo LEE , Ou Kyung Choi , Jun Ho Seo , Gyeong Su Kim , Dan Dan Dong , Xin Zhao
IPC: C02F1/26
Abstract: Provided is a desalination device using a solvent extraction method, comprising: a first mixing tank composed of a feed water inlet into which feed water comprising salt ions and water molecules flows, a first solvent inlet into which a first solvent selectively reacting more with the water molecules than with the salt ions flows, a first mixing tank body in which the feed water and the first solvent are mixed so as to form a mixed water, and a mixed water outlet through which the mixed water is discharged; a first separation tank composed of a mixed water inlet which communicates with the mixed water outlet so that the mixed water flows therein, a first separation tank body in which brine containing salt ions of the feed water and first treatment water formed from mixing the water molecules of the feed water and the first solvent of the mixed water are separated by layer, and a first treatment water outlet through which the first treatment water is discharged; a second mixing tank composed of a first treatment water inlet which communicates with the first treatment water outlet so that the first treatment water flows therein, a second solvent inlet into which a second solvent selectively reacting more with the first solvent than with the water molecules of the treatment water flows, a second mixing tank body in which the first treatment water and the second solvent are mixed so as to form second treatment water, and a second treatment water outlet through which the second treatment water is discharged; and a second separation tank composed of a second treatment water inlet which communicates with the second treatment water outlet so that the second treatment water flows therein, a second separation tank body in which the water molecules of the first treatment water and a composite solvent formed from mixing the first solvent of the first treatment water and the second solvent of the second treatment water are separated by layer, and a fresh water outlet through which fresh water composed of the water molecules is discharged.
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