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1. 发明授权

US11639292B2 Particulate composite materials 有权
公开(公告)号：US11639292B2
公开(公告)日：2023-05-02
申请号：US17336085
申请日：2021-06-01
申请人： Group14 Technologies, Inc.
发明人： Henry R. Costantino , Abirami Dhanabalan , Avery J. Sakshaug
IPC分类号： C01B33/035 , C01B32/354 , B82Y40/00 , B82Y30/00
摘要： Particulate composite materials and devices comprising the same are provided.

2. 发明授权

US11551877B2 Carbonaceous material, and electrode material for electric double layer capacitor, electrode for electric double layer capacitor and electric double layer capacitor that contain carbonaceous material 有权
公开(公告)号：US11551877B2
公开(公告)日：2023-01-10
申请号：US16301589
申请日：2017-04-21
申请人： KURARAY CO., LTD.
发明人： Shohei Kobayashi , Motomi Matsushima , Seiya Kimachi , Hideharu Iwasaki
IPC分类号： C01B31/08 , H01G11/32 , H01G11/04 , H01G11/34 , H01G11/20 , C01B32/318 , H01G11/86 , H01G11/24 , C01B32/336 , H01G11/42 , C01B32/354 , C01B32/30 , H01G11/00
摘要： An object of the present invention is to provide a carbonaceous material used for an electric double layer capacitor having a high electrostatic capacity and capable of maintaining the high electrostatic capacity and energy density over a long period and a method for producing the same. The present invention relates to a carbonaceous material having a specific surface area of 1,200 m2/g to 1,800 m2/g according to a BET method, an R-value of 1.2 or more and a G-band half-value width of 70 cm−1 or more according to a Raman spectrum.

3. 发明授权

US11254616B2 Method of producing integral 3D humic acid-carbon hybrid foam 有权
公开(公告)号：US11254616B2
公开(公告)日：2022-02-22
申请号：US15228133
申请日：2016-08-04
申请人： Nanotek Instruments, Inc.
发明人： Aruna Zhamu , Bor Z. Jang
IPC分类号： C04B35/524 , C04B38/00 , C04B35/528 , D01F9/14 , C04B35/52 , C04B35/622 , C04B35/634 , C04B35/628 , B29C67/20 , C01B32/20 , C01B32/354 , B29L31/00 , B29K101/12 , B29K105/00
摘要： Provided is a method of producing an integral 3D humic acid-carbon hybrid foam, comprising: (A) forming a solid shape of humic acid-polymer particle mixture; and (B) pyrolyzing the solid shape of humic acid-polymer particle mixture to thermally reduce humic acid into reduced humic acid sheets and thermally convert polymer into pores and carbon or graphite that bonds the reduced humic acid sheets to form the integral 3D humic acid-carbon hybrid foam.

4. 发明授权

US11155465B2 Cross-linked structure of carbon material and method for producing same 有权
公开(公告)号：US11155465B2
公开(公告)日：2021-10-26
申请号：US15563698
申请日：2016-04-22
申请人： STELLA CHEMIFA CORPORATION
发明人： Yoshinori Sato , Kazutaka Hirano , Yuki Kikui
IPC分类号： C01B32/168 , B82Y30/00 , C01B32/05 , C01B32/156 , C01B32/18 , C01B32/194 , C01B32/21 , C01B32/28 , C01B32/354 , B82Y40/00
摘要： A cross-linked structure of a carbon material is excellent in mechanical strength, such as tensile strength. The carbon materials such as carbon nanotube, graphite, fullerene, and carbon nanocoil, are cross-linked with each other. The carbon materials are cross-linked through a linking group derived from a nucleophilic compound having two or more nucleophilic groups in the molecule.

5. 发明申请

US20210254243A1 METAL NANOPARTICLES IMPREGNATED ACTIVATED CARBON FIBER FOR REMOVING HARMFUL SUBSTANCES, AND METHOD OF MANUFACTURING SAME 有权
公开(公告)号：US20210254243A1
公开(公告)日：2021-08-19
申请号：US17179452
申请日：2021-02-19
申请人： JEONJU UNIVERSITY OFFICE OF INDUSTRY-UNIVERSITY COOPERATION
发明人： Seung Kon RYU , Hong Gun KIM
IPC分类号： D01F9/22 , C01B32/336 , C01B32/354 , C01B32/324 , D06M11/83 , B01J20/20 , B01J20/28
摘要： The present disclosure relates to a metal nanoparticles impregnated activated carbon fiber for removing harmful substances, and a method of manufacturing the same. A method of manufacturing a metal nanoparticles impregnated activated carbon fiber for removing harmful substances according to the present disclosure includes an activation step of manufacturing an activated carbon fiber by heat-treating a precursor including a waste carbon fiber under a mixed atmosphere of activation gases including water vapor, carbon monoxide, nitrogen, argon, helium, or combinations thereof, and a metal containing step of containing metal in the activated carbon fiber. According to the present disclosure, a carbonization process is unnecessary since a precursor including the waste carbon fiber is used, and the metal nanoparticles impregnated activated carbon fiber may have remarkably improved adsorptive power compared to an activated carbon fiber with the same specific surface area by controlling the micropore distribution.

6. 发明授权

US10773234B2 Shaped nanoporous bodies 有权
公开(公告)号：US10773234B2
公开(公告)日：2020-09-15
申请号：US15745399
申请日：2016-07-15
申请人： Neoteryx, LLC
发明人： Stephen Robert Tennison , Michal Kowalski , Thomas Avery , Susan Rachel Sandeman , Carol Angela Howell , Yishan Zheng , Ganesh Ingavle , Sergey Victorovich Mikhalovsky , Mambet Nuraliyev
IPC分类号： B01J20/20 , B01J20/28 , C01B32/354 , A61M1/34 , A61M1/36 , B01J20/30
摘要： A range of carbon materials can be produced using lignin in combination with synthetic phenolic resins or naturally occurring lingo-cellulosic materials. The lignin, which is essentially a naturally occurring phenolic resin, has a carbon yield on pyrolysis similar to that of the synthetic resins, which aids processing. The lignin can be used as a binder phase for synthetic resin or lignocellulosic materials allowing the production of monolithic carbons from a wide range of precursors, as the primary structural material where the thermal processing is modified by the addition of small quantities of synthetic resin materials or as structure modified in the production of meso/macro porous carbons in either bead, granular or monolithic form. A carbonised monolith is provided comprising mesoporous and/or macroporous carbon particles dispersed in a matrix of microporous carbon particles with voids between the particles defining paths for fluid to flow into and through the structure. The monolith may take the form of a shaped body having walls defining a multiplicity of internal transport channels for fluid flow, the transport channels being directed along the extrusion direction. The monolith may be made by carbonising a shaped phenolic body based on phenolic resin precursors. In a method for producing such a carbonisable shaped resin body solid particles of a first phenolic resin are provided which is partially cured so that the particles are sinterable but do not melt on carbonisation. The particles of the first phenolic resin are mixed with particles of a second phenolic resin that has a greater degree of cure than said first phenolic resin and has a mesoporous and/or macroporous microstructure that is preserved on carbonisation. The resulting mixture is formed into a dough e.g. by mixing the resin particles with methyl cellulose, PEO and water, after which the dough is extruded to form a shaped product and stabilising in its shape by sintering.

7. 发明授权

US10722867B2 Porous shaped carbon products 有权
公开(公告)号：US10722867B2
公开(公告)日：2020-07-28
申请号：US15131829
申请日：2016-04-18
申请人： Archer-Daniels-Midland Company
发明人： Gary M. Diamond , Guang Zhu , Vincent J. Murphy , Eric Dias
IPC分类号： B01J21/18 , B01J23/46 , C01B32/354 , C04B38/00 , C07C51/09 , C07C51/377 , C07C29/60 , B01J23/52 , B01J23/89 , C04B35/532 , C07C51/31 , B01J23/42 , B01J37/02 , C07C209/16 , C04B35/636 , B01J23/656 , B01J23/652 , C09C1/48 , C01B32/05 , B01J37/18 , B01J35/10 , B01J37/00 , B01J37/08 , B01J23/755 , B01J35/02 , B01J35/00 , C04B111/00
摘要： Shaped porous carbon products and processes for preparing these products are provided. The shaped porous carbon products can be used, for example, as catalyst supports and adsorbents. Catalyst compositions including these shaped porous carbon products, processes of preparing the catalyst compositions, and various processes of using the shaped porous carbon products and catalyst compositions are also provided.

8. 发明授权

US10407379B2 Derivatisation of carbon 有权
公开(公告)号：US10407379B2
公开(公告)日：2019-09-10
申请号：US14665832
申请日：2015-03-23
申请人： SCHLUMBERGER TECHNOLOGY CORPORATION
发明人： Fenglou Zou , Nathan Lawrence , Timothy Jones
IPC分类号： B82Y30/00 , B82Y40/00 , C01B32/20 , C01B32/21 , C01B32/28 , G01N27/30 , C01B32/156 , C01B32/174 , C01B32/194 , C01B32/354 , C07C201/12 , C01B31/02 , C01B31/04
摘要： A molecular species is covalently attached to elemental carbon by exposing the carbon to a reaction mixture containing a strong base and a compound of the formula or in which X denotes a covalently attached atom or group capable of forming an X− anion and each Z is a moiety comprising a plurality of atoms, but which does not have a hydrogen atom directly attached to the atom which itself is directly attached to the —CH2X or —CHX group. The carbon substrate may be graphite or carbon nanotubes.

9. 发明授权

US10265681B2 Activated carbon monolith catalyst, methods for making same, and uses thereof 有权
公开(公告)号：US10265681B2
公开(公告)日：2019-04-23
申请号：US15498643
申请日：2017-04-27
申请人： Applied Technology Limited Partnership
发明人： Robert L. Mitchell , Lee M. Mitchell , Joseph H. Keller , Jack H. L'Amoreaux
IPC分类号： B01J21/18 , C07B43/04 , C07C209/36 , B01J35/04 , C01B32/354 , B01J23/44 , C01B31/08
摘要： An activated carbon monolith catalyst comprising a finished self-supporting activated carbon monolith having at least one passage therethrough, and comprising a supporting matrix and substantially discontinuous activated carbon particles dispersed throughout the supporting matrix and at least one catalyst precursor on the finished self-supporting activated carbon monolith. A method for making, and a method for use, of such an activated carbon monolith catalyst in catalytic chemical reactions are also disclosed.

10. 发明申请

US20230122106A1 CARBONACEOUS MATERIAL AND METHOD FOR PRODUCING SAME, WATER PURIFICATION FILTER, AND WATER PURIFIER 有权
公开(公告)号：US20230122106A1
公开(公告)日：2023-04-20
申请号：US17798175
申请日：2021-06-25
申请人： KURARAY CO., LTD.
发明人： Tetsuya HANAMOTO , Mitsunori HITOMI , Hiroe YOSHINOBU
IPC分类号： C02F1/00 , C01B32/318 , C01B32/354
摘要： One aspect of the present invention relates to a carbonaceous material having a BET specific surface area calculated from a nitrogen adsorption isotherm by a BET method, of 750 m2/g or more and 1000 m2/g or less, a ratio of a pore volume of pores of 0.3875 to 0.9125 nm calculated from the nitrogen adsorption isotherm by a HK method to a total pore volume calculated from the nitrogen adsorption isotherm by the HK method, of 80% or more, and an average pore diameter obtained by the following formula using the BET specific surface area and the total pore volume calculated from the nitrogen adsorption isotherm by the HK method, of 1.614 nm or less: D=4000×V/S (wherein D represents the average pore diameter (nm), V represents the total pore volume (mL/g), and S represents the specific surface area (m2/g)).

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