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1
US2019043901A1
Publication/Patent Number: US2019043901A1
Publication date: 2019-02-07
Application number: 15/737,402
Filing date: 2017-04-11
Abstract: The present technology relates to a solid-state imaging element configured so that pixels can be more reliably separated, a method for manufacturing the solid-state imaging element, and an electronic apparatus. The solid-state imaging element includes a photoelectric converter, a first separator, and a second separator. The photoelectric converter is configured to perform photoelectric conversion of incident light. The first separator configured to separate the photoelectric converter is formed in a first trench formed from a first surface side. The second separator configured to separate the photoelectric converter is formed in a second trench formed from a second surface side facing a first surface. The present technology is applicable to an individual imaging element mounted on, e.g., a camera and configured to acquire an image of an object. The present technology relates to a solid-state imaging element configured so that pixels can be more reliably separated, a method for manufacturing the solid-state imaging element, and an electronic apparatus. The solid-state imaging element includes a photoelectric converter ...more ...less
2
KR20180033079A
Publication/Patent Number: KR20180033079A
Publication date: 2018-04-02
Application number: 20170120299
Filing date: 2017-09-19
Abstract: An object of the present invention is to provide a decompression drying apparatus capable of reducing unevenness in the decompression drying speed of a coating layer in the plane of a substrate. The decompression drying apparatus includes a processing chamber for accommodating a substrate on which a coating layer containing an organic material and a solvent is formed; a substrate holding part for holding the substrate from the inside of the processing chamber to a lower part; a decompression mechanism connected to the exhaust port of the processing chamber to decompress the inside of the processing chamber; and an airflow restricting part for restricting an airflow directed from the vicinity of the upper surface of the substrate held by the substrate holding part to the exhaust port of the processing chamber. The airflow restricting part includes a side wall part that blocks the airflow at the side of the substrate held by the substrate holding part and a ceiling part that blocks the airflow at the upper part of the substrate held by the substrate holding part. An object of the present invention is to provide a decompression drying apparatus capable of reducing unevenness in the decompression drying speed of a coating layer in the plane of a substrate. The decompression drying apparatus includes a processing chamber for accommodating a ...more ...less
3
KR20180033080A
Publication/Patent Number: KR20180033080A
Publication date: 2018-04-02
Application number: 20170120498
Filing date: 2017-09-19
Abstract: The present invention provides a decompression drying system, which can improve throughput. The decompression drying system comprises a first decompression drying device and a second decompression drying device. The first decompression drying device, which includes a first processing container for accommodating a substrate having a coating layer formed thereon, the coating layer including an organic material and a solvent, a first substrate retaining part retaining the substrate inside the first processing container, and a first decompression mechanism decompressing the inside of the first processing container to a pressure lower than the atmospheric pressure, evaporates the solvent from the coating layer under a decompression atmosphere in which the pressure is lower than the atmospheric pressure. The second decompression drying device, which includes a second processing container for accommodating the substrate transferred from the first decompression drying device, a second substrate retaining part retaining the substrate inside the second processing container, and a second decompression mechanism decompressing the inside of the second processing container to a pressure lower than the atmospheric pressure, evaporates the solvent remaining in the coating layer under a decompression atmosphere in which the pressure is lower than the atmospheric pressure. The present invention provides a decompression drying system, which can improve throughput. The decompression drying system comprises a first decompression drying device and a second decompression drying device. The first decompression drying device, which includes a first ...more ...less
4
JP2018048792A
Publication/Patent Number: JP2018048792A
Publication date: 2018-03-29
Application number: 2016186194
Filing date: 2016-09-23
Abstract: PROBLEM TO BE SOLVED: To provide a decompression drying system capable of increasing throughput.SOLUTION: A decompression drying system has: a first decompression drying device which has a first treatment container housing a substrate where a coating layer containing an organic material and solution is formed, a first substrate holding part holding the substrate inside the first treatment container and a first decompression mechanism decompressing an inside of the first treatment container to an air pressure lower than an atmospheric pressure, and evaporates the solution from the coating layer in a decompression atmosphere of the air pressure lower than the atmospheric pressure; and a second decompression drying device which has a second treatment container housing the substrate transferred from the first decompression drying device, a second substrate holding part holding the substrate inside the second treatment container and a second decompression mechanism decompressing an inside of the second treatment container to the air pressure lower than the atmospheric pressure, and evaporates the solution remaining in the coating layer in the decompressed atmosphere of the air pressure lower than the atmospheric pressure.SELECTED DRAWING: Figure 8 PROBLEM TO BE SOLVED: To provide a decompression drying system capable of increasing throughput.SOLUTION: A decompression drying system has: a first decompression drying device which has a first treatment container housing a substrate where a coating layer containing an organic ...more ...less
5
CN107872914A
Publication/Patent Number: CN107872914A
Publication date: 2018-04-03
Application number: 201710863784
Filing date: 2017-09-22
Abstract: The present invention provides a decompression drying system, capable of improving the throughput. The decompression drying system includes: a first decompression drying device and a second decompression drying device, wherein the first decompression drying device includes a first processing container accommodating a substrate with a coating layer including an organic material and a solvent, a first substrate holding unit holding the substrate inside the first processing container, and a first decompression mechanism which decompresses the inside of the first processing container to a pressurelower than the atmospheric pressure and evaporates the solvent from the coating layer in the decompression atmosphere whose atmospheric pressure is lower than the atmospheric pressure; and the seconddecompression drying device includes a second processing container accommodating the substrate conveyed from the decompression drying device, a second substrate holding unit holding the substrate inside the second processing container, and a second decompression mechanism which decompresses the inside of the second processing container to a pressure lower than the atmospheric pressure and evaporizes the solvent remaining in the coating layer in the decompression atmosphere having a pressure lower than the atmospheric pressure. The present invention provides a decompression drying system, capable of improving the throughput. The decompression drying system includes: a first decompression drying device and a second decompression drying device, wherein the first decompression drying device includes a ...more ...less
6
JP2018049806A
Publication/Patent Number: JP2018049806A
Publication date: 2018-03-29
Application number: 2016186195
Filing date: 2016-09-23
Abstract: PROBLEM TO BE SOLVED: To provide a reduced-pressure drying device capable of reducing uneven reduced-pressure drying speed on a coating layer in a surface of a substrate.SOLUTION: A reduced-pressure drying device comprises: a processing container that houses a substrate in which a coating layer including an organic material and a solvent is formed; a substrate holding part that holds the substrate from a lower direction in an inner part of the processing container; a reduced-pressure mechanism that is connected to an exhaust port of the processing container, and reduces an inner part of the processing container; and an air regulation part that regulates air drawn to the exhaust port of the processing container from the vicinity of an upper surface of the substrate held in the substrate holding part. The air regulation part includes: a side wall part that shutdowns the air in a side direction of the substrate held by the substrate holding part; and a ceiling part that shutdowns the air in an upper direction of the substrate held by the substrate holding part.SELECTED DRAWING: Figure 7 PROBLEM TO BE SOLVED: To provide a reduced-pressure drying device capable of reducing uneven reduced-pressure drying speed on a coating layer in a surface of a substrate.SOLUTION: A reduced-pressure drying device comprises: a processing container that houses a substrate in which ...more ...less
7
CN107871828A
Publication/Patent Number: CN107871828A
Publication date: 2018-04-03
Application number: 201710863857
Filing date: 2017-09-22
Abstract: The present invention provides a decompressing and drying device which can reduce the nonuniformity of the decompressing and drying speed of a coating layer in a surface of a substrate. The decompressing and drying device comprises a processing container for accommodating the substrate on which the coating layer containing an organic material and a solvent is formed; a substrate holding part for holding the above substrate from below in the above processing container; a decompressing mechanism connected with an exhaust port of the above processing container and decompressing the interior of the above processing container; an airflow limiting part for limiting an airflow flowing from the position nearby the upper surface of the above substrate held by the above substrate holding part to theexhaust port of the above processing container, wherein the above airflow limiting part comprises a side wall part for keeping out the airflow at the side of the above substrate held by the above substrate holding part; and a top for keeping out the airflow above the above substrate held by the above substrate holding part. The present invention provides a decompressing and drying device which can reduce the nonuniformity of the decompressing and drying speed of a coating layer in a surface of a substrate. The decompressing and drying device comprises a processing container for accommodating the ...more ...less
8
CN107710414A
Publication/Patent Number: CN107710414A
Publication date: 2018-02-16
Application number: 201780002063
Filing date: 2017-04-11
Assignee: SONY CORP
Abstract: The present feature pertains to a solid-state imaging element with which it is possible to separate pixels in a more reliable manner, a method for manufacturing the solid-state imaging element, and anelectronic device. The solid-state imaging element has a photoelectric converter, a first separator, and a second separator The photoelectric converter performs photoelectric conversion on incident light, the first separator for separating the photoelectric converter is formed in a first trench formed from a first surface side, and the second separator for separating the photoelectric converter is formed in a second trench formed from a second surface side that faces the first surface. The present feature can be applied to a solid-state imaging element that is mounted on a camera, etc., and that captures the image of a subject. The present feature pertains to a solid-state imaging element with which it is possible to separate pixels in a more reliable manner, a method for manufacturing the solid-state imaging element, and anelectronic device. The solid-state imaging element has a photoelectric ...more ...less
9
JP2017213329A
Publication/Patent Number: JP2017213329A
Publication date: 2017-12-07
Application number: 2016121244
Filing date: 2016-06-01
Inventor: Ueda, Toshifumi  
Abstract: 【課題】本発明は、歯科治療に使用する小器具ファイル(又はリーマー)(リーマーとファイルはほぼ同じもの)が治療中に歯の内で破折した際、それを除去するために磁力を用いた歯科用マグネット式破折ファイル除去器具を提供する。【解決手段】円柱状のマグネット(1)の中心に0.5ミリほどの穴(2)をあけ、そこに専用ファイルを通して使用する。【選択図】図1 【課題】本発明は、歯科治療に使用する小器具ファイル(又はリーマー)(リーマーとファイルはほぼ同じもの)が治療中に歯の内で破折した際、それを除去するために磁力を用いた歯科用マグネット式破折ファイル除去器具を提供する。【解決手段】円柱状のマグネット(1)の中心に0.5ミリほどの穴(2)をあけ、そこに専用ファイルを通して使用する。【選択図】図1 ...more ...less
10
WO2017187957A1
Publication/Patent Number: WO2017187957A1
Publication date: 2017-11-02
Application number: 2017014753
Filing date: 2017-04-11
Abstract: The present feature pertains to a solid-state imaging element with which it is possible to separate pixels in a more reliable manner
11
US8999599B2
Publication/Patent Number: US8999599B2
Publication date: 2015-04-07
Application number: 13/812,233
Filing date: 2012-07-17
Abstract: A method of fabricating a membrane electrode assembly, comprising: obtaining a mixture by mixing and kneading electrically conductive particles, a polymer resin, a surfactant, and a dispersion solvent (S1); obtaining a sheet-like mixture by rolling out and shaping the mixture (S2); obtaining a carbon sheet by heat-treating the sheet-like mixture at a first heat treatment temperature such that the surfactant and the dispersion solvent are removed from the sheet-like mixture (S3); obtaining a dispersion liquid by mixing electrically conductive particles, a polymer resin, a surfactant, and a dispersion solvent (S4); forming, on the carbon sheet, a dispersion liquid layer thinner than the carbon sheet by forming and drying a coating of the dispersion liquid on the carbon sheet (S5); obtaining a gas diffusion layer in which a carbon layer is formed on the carbon sheet, by heat-treating the carbon sheet on which the dispersion liquid layer is formed at a second heat treatment temperature lower than the first heat treatment temperature such that the surfactant and the dispersion solvent are removed from the dispersion liquid layer (S6); and stacking a catalyst layer and an electrolyte membrane in said order on the carbon layer (S7). A method of fabricating a membrane electrode assembly, comprising: obtaining a mixture by mixing and kneading electrically conductive particles, a polymer resin, a surfactant, and a dispersion solvent (S1); obtaining a sheet-like mixture by rolling out and shaping the mixture ...more ...less
12
US2015207167A1
Publication/Patent Number: US2015207167A1
Publication date: 2015-07-23
Application number: 14/421,129
Filing date: 2013-09-20
Abstract: Provided is a thin battery including: an electrode assembly; and a flexible housing configured to house the electrode assembly. The electrode assembly includes: a positive electrode in sheet form; a negative electrode in sheet form; and an electrolyte layer interposed therebetween. The electrolyte layer includes: a non-aqueous electrolyte; and a non-woven fabric sheet configured to retain the non-aqueous electrolyte. The non-woven fabric sheet includes a conjugated fiber including at least two kinds of macromolecules conjugated together. The at least two kinds of macromolecules include: a first macromolecule without a cross-linked structure; and a second macromolecule with a cross-linked structure. Provided is a thin battery including: an electrode assembly; and a flexible housing configured to house the electrode assembly. The electrode assembly includes: a positive electrode in sheet form; a negative electrode in sheet form; and an electrolyte layer interposed ...more ...less
13
JP5679955B2
Publication/Patent Number: JP5679955B2
Publication date: 2015-03-04
Application number: 2011267480
Filing date: 2011-12-07
Abstract: PROBLEM TO BE SOLVED: To provide a drawer door for a refrigerator with which a reinforcement plate is not required for mounting a support frame which holds a food storage container
14
DE102014109718A1
Publication/Patent Number: DE102014109718A1
Publication date: 2015-01-15
Application number: 102014109718
Filing date: 2014-07-10
Abstract: Eine Licht emittierende Vorrichtung beinhaltet ein Substrat
15
US9196584B2
Publication/Patent Number: US9196584B2
Publication date: 2015-11-24
Application number: 14/327,778
Filing date: 2014-07-10
Abstract: A light-emitting device includes a substrate, first LEDs and second LEDs mounted on the substrate, multiple wirings separately formed on the substrate, and a conductive member for connecting adjacent two wirings in multiple wirings for establishing series connection, parallel connection, or a combination of series and parallel connections of the first LEDs and the second LEDs. This achieves the light-emitting device that can support multiple different specifications, using a single type of substrate. A light-emitting device includes a substrate, first LEDs and second LEDs mounted on the substrate, multiple wirings separately formed on the substrate, and a conductive member for connecting adjacent two wirings in multiple wirings for establishing series connection, parallel ...more ...less
16
US2015016109A1
Publication/Patent Number: US2015016109A1
Publication date: 2015-01-15
Application number: 14/327,778
Filing date: 2014-07-10
Abstract: A light-emitting device includes a substrate, first LEDs and second LEDs mounted on the substrate, multiple wirings separately formed on the substrate, and a conductive member for connecting adjacent two wirings in multiple wirings for establishing series connection, parallel connection, or a combination of series and parallel connections of the first LEDs and the second LEDs. This achieves the light-emitting device that can support multiple different specifications, using a single type of substrate. A light-emitting device includes a substrate, first LEDs and second LEDs mounted on the substrate, multiple wirings separately formed on the substrate, and a conductive member for connecting adjacent two wirings in multiple wirings for establishing series connection, parallel ...more ...less
17
WO2014045586A1
Publication/Patent Number: WO2014045586A1
Publication date: 2014-03-27
Application number: 2013005545
Filing date: 2013-09-20
Abstract: A thin cell provided with an electrode group and a flexible cladding body for accommodating the electrode group; the electrode group including a sheet-form positive electrode
18
EP2736107A4
Publication/Patent Number: EP2736107A4
Publication date: 2014-12-03
Application number: 12815214
Filing date: 2012-07-17
Abstract: A method of fabricating a membrane electrode assembly
19
JP2014016007A
Publication/Patent Number: JP2014016007A
Publication date: 2014-01-30
Application number: 2012155104
Filing date: 2012-07-11
Assignee: JTEKT CORP
Abstract: PROBLEM TO BE SOLVED: To provide a tripod type constant velocity joint that obtains a desired shape with high accuracy even if the outer peripheral surfaces of a plurality of rollers are simultaneously processed
20
EP2736107A1
Publication/Patent Number: EP2736107A1
Publication date: 2014-05-28
Application number: 12815214.7
Filing date: 2012-07-17
Abstract: A method of fabricating a membrane electrode assembly, comprising: obtaining a mixture by mixing and kneading electrically conductive particles, a polymer resin, a surfactant, and a dispersion solvent (S1); obtaining a sheet-like mixture by rolling out and shaping the mixture (S2); obtaining a carbon sheet by heat-treating the sheet-like mixture at a first heat treatment temperature such that the surfactant and the dispersion solvent are removed from the sheet-like mixture (S3); obtaining a dispersion liquid by mixing electrically conductive particles, a polymer resin, a surfactant, and a dispersion solvent (S4); forming, on the carbon sheet, a dispersion liquid layer thinner than the carbon sheet by forming and drying a coating of the dispersion liquid on the carbon sheet (S5); obtaining a gas diffusion layer in which a carbon layer is formed on the carbon sheet, by heat-treating the carbon sheet on which the dispersion liquid layer is formed at a second heat treatment temperature lower than the first heat treatment temperature such that the surfactant and the dispersion solvent are removed from the dispersion liquid layer (S6); and stacking a catalyst layer and an electrolyte membrane in said order on the carbon layer (S7). A method of fabricating a membrane electrode assembly, comprising: obtaining a mixture by mixing and kneading electrically conductive particles, a polymer resin, a surfactant, and a dispersion solvent (S1); obtaining a sheet-like mixture by rolling out and shaping the mixture ...more ...less