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公开(公告)号:US11312637B1
公开(公告)日:2022-04-26
申请号:US17405807
申请日:2021-08-18
申请人: MICO LTD. , KOMICO LTD.
发明人: Jung Hyun In , Sung Yong Kim , Hee Jin Jo , Dong Hun Jeong
摘要: Proposed is an yttrium-based granular powder for thermal spraying. The yttrium-based granular powder includes at least one yttrium compound powder selected from the group consisting of Y2O3, YOF, YF3, Y4Al2O9, Y3Al5O12, and YAlO3, and a silica (SiO2) powder. The yttrium-based granular powder is prepared by mixing the yttrium compound powder having a mean grain diameter of 50 nm to 900 nm and the silica powder having a mean grain diameter of 50 nm to 900 nm. The yttrium-based granular powder includes less than 10 wt % of a Y—Si—O mesophase. A thermal spray coating produced using the yttrium-based granular powder can exhibit low porosity, high density, and excellent plasma resistance.
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公开(公告)号:US11067835B2
公开(公告)日:2021-07-20
申请号:US16299512
申请日:2019-03-12
发明人: Shinji Makikawa , Shinji Aoki , Yoshihiro Nojima
IPC分类号: C09K11/08 , G02F1/00 , C01F17/00 , C04B35/50 , G02F1/09 , G02B27/28 , C04B35/505 , C04B35/626 , C04B35/63 , C04B35/64 , C04B35/645
摘要: A starting material powder, which contains a rare earth oxide that is composed of terbium oxide and at least one other rare earth oxide selected from among yttrium oxide, scandium oxide and oxides of lanthanide rare earth elements (excluding terbium) and a sintering assistant that is formed of an oxide of at least one element selected from among group 2 elements and group 4 elements, is produced by having (a) terbium ions, (b) ions of at least one other rare earth element selected from among yttrium ions, scandium ions and lanthanide rare earth ions (excluding terbium ions) and (c) ions of at least one element selected from among group 2 elements and group 4 elements coprecipitate in an aqueous solution containing the components (a)-(c), then filtering and separating the coprecipitate, and subjecting the separated coprecipitate to thermal dehydration.
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公开(公告)号:US20210047196A1
公开(公告)日:2021-02-18
申请号:US16537985
申请日:2019-08-12
摘要: Embodiments relate to methods for generating selected materials from a natural brine. A natural brine comprising at least a portion of a selected material is heated. CO2 is added and mixes with the natural brine forming a mixture such that the CO2/P is a first predetermined value. The mixture is held so that impurities in the natural brine precipitate as solids leaving a second brine substantially comprising the selected material. The second brine is heated. CO2 gas is injected into the second brine, mixing so that the CO2/P is a second predetermined value. The mixture is held so that the selected material precipitates out and are removed.
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公开(公告)号:US10920120B2
公开(公告)日:2021-02-16
申请号:US16342415
申请日:2017-10-06
IPC分类号: C09K3/14 , C09G1/02 , C01F17/00 , C01B33/14 , B24B37/00 , H01L21/304 , C01F17/206 , H01L21/321 , B24B37/04 , C09G1/04 , H01L21/306 , C09G1/00
摘要: A ceria composite particle dispersion has ceria composite particles having an average particle size of 50 to 350 nm and having the features described below. Each ceria composite particle has a mother particle, a cerium-containing silica layer on the surface thereof, and child particles dispersed inside the cerium-containing silica layer, the mother particles being amorphous silica-based and the child particles being crystalline ceria-based. The child particles have a coefficient of variation (CV value) in a particle size distribution of 14 to 40%. The ceria composite particles have a mass ratio of silica to ceria of 100:11-316. Only the crystal phase of ceria is detected when the ceria composite particles are subjected to X-ray diffraction. The average crystallite size of the crystalline ceria measured by subjecting the ceria composite particles to X-ray diffraction is 10 to 25 nm.
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公开(公告)号:US10669159B2
公开(公告)日:2020-06-02
申请号:US15753910
申请日:2016-08-19
发明人: Junji Akimoto , Naoki Hamao , Kunimitsu Kataoka
IPC分类号: C01G25/00 , H01B1/08 , H01B13/00 , H01M8/12 , H01M4/88 , H01M8/02 , C01F17/00 , C01G27/00 , H01M8/1016 , C01F17/32
摘要: Provided is a complex oxide that has a high hydrogen content, contains almost no impurity phase, and is suitable for proton conductivity. The complex oxide is represented by a chemical formula Li7-xHxLa3M2O12 (M represents Zr and/or Hf, and 3.2
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公开(公告)号:US10604665B2
公开(公告)日:2020-03-31
申请号:US15546923
申请日:2016-01-27
发明人: Mika Okada , Hideaki Fukuyama
IPC分类号: C09D11/037 , C09D11/50 , C08K3/38 , B42D25/382 , B41M3/14 , C09D17/00 , C09K3/00 , C01B35/04 , C01F17/00
摘要: Provided are a near infrared absorbing fine particle dispersion liquid having an absorption ability in a near infrared region, a clear contrast, and applicable to offset printing, and a method for producing the same, an anti-counterfeit ink composition using the near infrared absorbing fine particle dispersion liquid and an anti-counterfeit printed matter using near infrared absorbing fine particles. Also provided are a near infrared absorbing fine particle dispersion liquid containing a solvent of one or more kinds selected from vegetable oils or vegetable oil-derived compounds; near infrared absorbing fine particles in an amount of 2 mass % or more and 25 mass % or less, selected from one or more kinds of hexaboride fine particles expressed by a general formula XBa (wherein element X is at least one or more kinds selected from a group consisting of La, Ce, Pr, Nd, Gd, Tb, Dy, Ho, Y, Sm, Eu, Er, Tm, Yb, Lu, Sr, and Ca, satisfying 4.0≤a≤6.2); and a dispersant soluble in the solvent and having a fatty acid in its structure, wherein viscosity is 180 mPa/S or less, and an anti-counterfeit ink composition containing the near infrared absorbing fine particle dispersion liquid. Also provided is an anti-counterfeit printed matter excellent in anti-counterfeit effect due to the printed matter containing the near infrared absorbing fine particles.
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公开(公告)号:US10604450B2
公开(公告)日:2020-03-31
申请号:US15683500
申请日:2017-08-22
IPC分类号: H01F1/34 , H01F1/11 , C01G49/00 , C01F11/00 , C01F7/02 , C01F17/00 , C04B35/26 , C01G51/00 , C01B33/20
摘要: Disclosed herein are embodiments of composite hexagonal ferrite materials formed from a combination of Y phase and Z phase hexagonal ferrite materials. Advantageously, embodiments of the material can have a high resonant frequency as well as a high permeability. In some embodiments, the materials can be useful for magnetodielectric antennas.
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公开(公告)号:US10576462B2
公开(公告)日:2020-03-03
申请号:US14891218
申请日:2014-05-08
发明人: Steven L. Suib , Altug Suleyman Poyraz , Lei Jin , Chung-hao Kuo
IPC分类号: B01J27/14 , B01J23/30 , B01J23/14 , B01J35/02 , B01J35/00 , B01J35/10 , B01J37/08 , B01J37/04 , C01G9/08 , C01G19/02 , C01G37/033 , C01G27/02 , C01G33/00 , C01G45/02 , C01G11/02 , C01G11/00 , C01G25/02 , B82Y30/00 , C01G35/00 , C01G37/02 , C01G41/00 , C01G1/02 , C01G1/12 , B01J37/10 , B01J21/06 , B01J21/18 , B01J23/10 , B01J23/20 , B01J23/24 , B01J23/34 , B01J27/04 , B01J27/057 , B01J29/03 , B01J29/04 , B01J37/00 , C01B19/00 , B01J27/053 , C01B33/12 , C01F17/00 , H01B1/02 , C01B32/00 , B01J29/40
摘要: A process for preparing a mesoporous material, e.g., transition metal oxide, sulfide, selenide or telluride, Lanthanide metal oxide, sulfide, selenide or telluride, a post-transition metal oxide, sulfide, selenide or telluride and metalloid oxide, sulfide, selenide or telluride. The process comprises providing an acidic mixture comprising a metal precursor, an interface modifier, a hydrotropic or lyotropic ion precursor, and a surfactant; and heating the acidic mixture at a temperature and for a period of time sufficient to form the mesoporous material. A mesoporous material prepared by the above process. A method of controlling nano-sized wall crystallinity and mesoporosity in mesoporous materials. The method comprises providing an acidic mixture comprising a metal precursor, an interface modifier, a hydrotropic or lyotropic ion precursor, and a surfactant; and heating the acidic mixture at a temperature and for a period of time sufficient to control nano-sized wall crystallinity and mesoporosity in the mesoporous material. Mesoporous materials and a method of tuning structural properties of mesoporous materials.
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公开(公告)号:US10576420B2
公开(公告)日:2020-03-03
申请号:US15534794
申请日:2015-12-11
申请人: Isao Chinzei , Hiromasa Suzuki , Takeru Yoshida , Masahide Miura , Yuki Aoki , Mitsuyoshi Okada , Toshitaka Tanabe , Akihiko Suda , Yoshinori Saito , Hirotaka Ori , Kosuke Iizuka , Akira Morikawa
发明人: Isao Chinzei , Hiromasa Suzuki , Takeru Yoshida , Masahide Miura , Yuki Aoki , Mitsuyoshi Okada , Toshitaka Tanabe , Akihiko Suda , Yoshinori Saito , Hirotaka Ori , Kosuke Iizuka , Akira Morikawa
IPC分类号: B01D53/94 , B01J23/00 , F01N3/10 , C01G25/02 , B01J23/10 , B01J23/63 , B01J35/00 , B01J35/10 , B01J37/00 , B01J37/02 , B01J37/03 , C01F17/00 , B01J37/08 , B01J35/02 , B01J27/053
摘要: The object of the present invention is to provide an exhaust gas purifying catalyst that can achieve high purification performance while suppressing H2S emissions. The object is solved by an exhaust gas purifying catalyst in which the lower layer of the catalyst coating layer comprises a ceria-zirconia composite oxide having a pyrochlore-type ordered array structure, in which the ceria-zirconia composite oxide contains at least one additional element selected from the group consisting of praseodymium, lanthanum, and yttrium at 0.5 to 5.0 mol % in relation to the total cation amount, and the molar ratio of (cerium+additional element):(zirconium) is within the range from 43:57 to 48:52.
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公开(公告)号:US10553877B2
公开(公告)日:2020-02-04
申请号:US15637284
申请日:2017-06-29
发明人: Joo Ho Moon , Dae Hee Lee , Jai Wan Tan
摘要: The present invention relates to an electrochemical catalyst structure and a method for producing the same. The electrochemical catalyst structure may include a catalyst layer including a perovskite based oxide as an electrochemical oxygen reduction catalyst; and a modifying layer being in contact with the catalyst layer and including a transition metal oxide capable of chemical interaction with a metal of the perovskite based oxide through electron orbital hybridization.
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