公开(公告)号：US20150132654A1

公开(公告)日：2015-05-14

申请号：US14539269

申请日：2014-11-12

Applicant: Korea Institute of Energy Research

Inventor： Sun-Hwa Yeon ,  Kyoung-Hee Shin ,  Chang-Soo Jin ,  Kyu-Nam Jung ,  Jae-Deok Jeon ,  Joonmok Shim ,  Jung-Hoon Yang ,  Bum-Suk Lee ,  Myung Seok Jeon ,  Wook Ahn

IPC: H01M4/587 ,  H01M4/62 ,  H01M10/0525 ,  C01B31/04

CPC classification number: H01M4/587 ,  C01B32/184 ,  C01P2006/40 ,  H01M4/623

Abstract: Disclosed herein is a method of preparing porous graphene from porous graphite, including 1) thermochemically reacting a highly crystalline carbide compound with a halogen element-containing gas to give a porous carbide-derived carbon; 2) treating the carbide-derived carbon with an acid, thus preparing a carbide-derived carbon oxide; and 3) reducing the carbide-derived carbon oxide. An anode mixture for a secondary battery including the graphene and an anode for a secondary battery including the anode mixture are also provided.

Abstract translation: 本文公开了一种从多孔石墨制备多孔石墨烯的方法，包括1）使高结晶碳化物与含卤素元素的气体热化学反应，得到多孔碳源衍生的碳; 2）用酸处理碳化物衍生的碳，从而制备碳化物衍生的碳氧化物; 和3）还原碳化物衍生的碳氧化物。 还提供了包括石墨烯的二次电池的阳极混合物和包括阳极混合物的二次电池的阳极。

公开(公告)号：US09738523B2

公开(公告)日：2017-08-22

申请号：US14539286

申请日：2014-11-12

Applicant: Korea Institute of Energy Research

Inventor： Sun-Hwa Yeon ,  Kyoung-Hee Shin ,  Chang-Soo Jin ,  Kyu-Nam Jung ,  Sukeun Yoon ,  Jae-Deok Jeon ,  Joonmok Shim ,  Jung-Hoon Yang ,  Bum-Suk Lee ,  Myung Seok Jeon ,  Wook Ahn

IPC: C01B31/02 ,  H01M4/587 ,  H01G11/32 ,  C01B31/00 ,  C01B21/082 ,  H01G11/86

CPC classification number: C01B32/05 ,  C01B21/0828 ,  C01B32/00 ,  C01P2002/74 ,  C01P2006/12 ,  C01P2006/40 ,  H01G11/32 ,  H01G11/86 ,  H01M4/587 ,  Y02E60/13

Abstract: Disclosed is a method of preparing a carbide-derived carbon having high ion mobility for use in a lithium battery anode material, a lithium air battery electrode, a supercapacitor electrode, and a flow capacitor electrode, including thermally treating a carbide compound in a vacuum, thus obtaining a vacuum-treated carbide compound; and thermochemically reacting the vacuum-treated carbide compound with a halogen element-containing gas, thus extracting the element other than carbon from the vacuum-treated carbide compound, wherein annealing can be further performed after thermochemical reaction. This carbide-derived carbon has a small pore distribution, dense graphite fringe, and a large lattice spacing and thus high ion mobility, compared to conventional carbide-derived carbon obtained only by thermochemical reaction with a halogen element-containing gas.

公开(公告)号：US09634329B2

公开(公告)日：2017-04-25

申请号：US14539269

申请日：2014-11-12

Applicant: Korea Institute of Energy Research

Inventor： Sun-Hwa Yeon ,  Kyoung-Hee Shin ,  Chang-Soo Jin ,  Kyu-Nam Jung ,  Jae-Deok Jeon ,  Joonmok Shim ,  Jung-Hoon Yang ,  Bum-Suk Lee ,  Myung Seok Jeon ,  Wook Ahn

IPC: C01B31/04 ,  H01M4/587 ,  H01M4/62 ,  H01M10/0525

CPC classification number: H01M4/587 ,  C01B32/184 ,  C01P2006/40 ,  H01M4/623

Abstract: Disclosed herein is a method of preparing porous graphene from porous graphite, including 1) thermochemically reacting a highly crystalline carbide compound with a halogen element-containing gas to give a porous carbide-derived carbon; 2) treating the carbide-derived carbon with an acid, thus preparing a carbide-derived carbon oxide; and 3) reducing the carbide-derived carbon oxide. An anode mixture for a secondary battery including the graphene and an anode for a secondary battery including the anode mixture are also provided.

公开(公告)号：US20160130146A1

公开(公告)日：2016-05-12

申请号：US14539286

申请日：2014-11-12

Applicant: Korea Institute of Energy Research

Inventor： Sun-Hwa Yeon ,  Kyoung-Hee Shin ,  Chang-Soo Jin ,  Kyu-Nam Jung ,  Sukeun Yoon ,  Jae-Deok Jeon ,  Joonmok Shim ,  Jung-Hoon Yang ,  Bum-Suk Lee ,  Myung Seok Jeon ,  Wook Ahn

IPC: C01B31/02 ,  C01B31/00 ,  H01G11/32 ,  H01G9/042 ,  H01M4/587 ,  H01M4/04

CPC classification number: C01B32/05 ,  C01B21/0828 ,  C01B32/00 ,  C01P2002/74 ,  C01P2006/12 ,  C01P2006/40 ,  H01G11/32 ,  H01G11/86 ,  H01M4/587 ,  Y02E60/13

Abstract: Disclosed is a method of preparing a carbide-derived carbon having high ion mobility for use in a lithium battery anode material, a lithium air battery electrode, a supercapacitor electrode, and a flow capacitor electrode, including thermally treating a carbide compound in a vacuum, thus obtaining a vacuum-treated carbide compound; and thermochemically reacting the vacuum-treated carbide compound with a halogen element-containing gas, thus extracting the element other than carbon from the vacuum-treated carbide compound, wherein annealing can be further performed after thermochemical reaction. This carbide-derived carbon has a small pore distribution, dense graphite fringe, and a large lattice spacing and thus high ion mobility, compared to conventional carbide-derived carbon obtained only by thermochemical reaction with a halogen element-containing gas.

Abstract translation: 公开了一种制备用于锂电池负极材料，锂空气电池电极，超级电容器电极和流动电容器电极的具有高离子迁移率的碳化物衍生碳的方法，包括在真空中热处理碳化物， 从而获得真空处理的碳化物; 并将真空处理的碳化物与含卤素元素的气体热化学反应，从而从真空处理的碳化物中提取碳以外的元素，其中可以在热化学反应之后进一步进行退火。 与通过与含卤素气体的热化学反应获得的常规碳化物衍生碳相比，该碳化物衍生的碳具有小的孔分布，致密的石墨条纹和大的晶格间距，因此具有高的离子迁移率。

公开(公告)号：US20130280603A1

公开(公告)日：2013-10-24

申请号：US13855063

申请日：2013-04-02

Applicant: KOREA INSTITUTE OF ENERGY RESEARCH

Inventor： Sukeun Yoon ,  Kyung-Hee Shin ,  Chang soo Jin ,  Kyu-Nam Jung ,  Bum-suk Lee ,  Myung-seok Jeon ,  Sun-Hwa Yeon ,  Jae-Deok Joen ,  Jun-Mook Shim ,  Jung-Hoon Yang ,  Myung-Hyun Ryu

IPC: H01M4/04 ,  H01M4/133

CPC classification number: H01M4/04 ,  H01M4/0438 ,  H01M4/0471 ,  H01M4/131 ,  H01M4/133 ,  H01M4/362 ,  H01M4/485 ,  H01M4/587 ,  Y02E60/122 ,  Y02P70/54

Abstract: Disclosed is to a method of manufacturing an anode active material, including mixing a first solution having a metal oxide precursor dissolved therein, a second solution having a polymer as a carbon fiber precursor dissolved therein, and an ionic liquid solution for nitrogen doping and formation of a porous structure, thus preparing an electrospinning solution, electrospinning the electrospinning solution, thus preparing a metal oxide-nitrogen-porous carbon nanofiber composite, and thermally treating the composite, and to an anode and a lithium battery using the anode active material.

Abstract translation: 本发明公开了一种制造负极活性物质的方法，包括将溶解有金属氧化物前体的第一溶液，溶解有碳纤维前体的聚合物的第二溶液和氮掺杂用的离子液体溶液混合， 制备电纺丝溶液，静电纺丝溶液，制备金属氧化物 - 氮多孔碳纳米纤维复合材料，并使用阳极活性材料热处理复合材料和阳极和锂电池。

公开(公告)号：US10593982B2

公开(公告)日：2020-03-17

申请号：US15099742

申请日：2016-04-15

Applicant: KOREA INSTITUTE OF ENERGY RESEARCH

Inventor： Sun-Hwa Yeon ,  Kyoung-Hee Shin ,  Jae-Deok Jeon ,  Jung Joon Yoo ,  Hana Yoon ,  Chang-Soo Jin ,  Joon-Mok Shim ,  Jung-Hoon Yang ,  Kyu-Nam Jung ,  Dong-Ha Kim ,  Se-Kook Park

IPC: H01M8/18 ,  H01M8/04082 ,  H01G11/54 ,  H01G11/74 ,  H01G11/02 ,  H01G11/08 ,  H01G11/14 ,  H01G11/22

Abstract: Disclosed is a flow-type energy storage device having an improved flow of fluid. The flow-type energy storage device stores electricity using a fluidic material, and includes a reaction region in which charge-discharge reaction of electricity is performed by the fluidic material, wherein the reaction region has an octagonal cross-section. The shape of the reaction region is controlled to thus improve the flowability of the fluidic material, thereby providing a flow-type energy storage device that has almost constant electrical properties even when a charging and discharging cycle is repeatedly performed. Further, the structures of an inlet and an outlet are not complicated and a separate part for controlling the flow of fluid is not used in the device, and accordingly, additional costs are not incurred during a process of manufacturing the flow-type energy storage device.

公开(公告)号：US09266739B2

公开(公告)日：2016-02-23

申请号：US14067635

申请日：2013-10-30

Applicant: KOREA INSTITUTE OF ENERGY RESEARCH

Inventor： Sun-Hwa Yeon ,  Kyoung-Hee Shin ,  Chang-Soo Jin ,  Kyu-Nam Jung ,  Sukeun Yoon ,  Jae-Deok Jeon ,  Joonmok Shim ,  Jung-Hoon Yang ,  Bum-Suk Lee ,  Myung Seok Jeon

IPC: H01M4/04 ,  C01B31/10 ,  H01M4/587 ,  H01M10/052

CPC classification number: C01B31/10 ,  C01B32/336 ,  H01M4/0471 ,  H01M4/587 ,  H01M10/052 ,  Y10T29/49108

Abstract: Disclosed is a method for preparing a carbide-derived carbon-based anode active material. The method includes preparing carbide-derived carbon, and expanding pores of the carbide-derived carbon. Here, expanding of pores is performed as an activation process of heating the prepared carbide-derived carbon in the air. The pores formed inside the carbide-derived carbon can be expanded during the activation process in the preparation of the carbide-derived carbon-based anode active material. In addition, by applying the carbide-derived carbon to an anode active material, lithium secondary battery having improved charge-discharge efficiency can be prepared.

Abstract translation: 公开了一种制备碳化物衍生的碳基阳极活性材料的方法。 该方法包括制备碳化物衍生的碳和碳化物衍生的碳的膨胀孔。 这里，作为在空气中加热制备的碳化物来源的碳的活化过程，进行孔的膨胀。 在碳化物衍生的碳基负极活性材料的制备中，活化过程中，碳化物源碳内形成的孔可以膨胀。 此外，通过将碳化物衍生的碳施加到负极活性物质，可以制备具有改善的充放电效率的锂二次电池。

公开(公告)号：US09136526B2

公开(公告)日：2015-09-15

申请号：US13855063

申请日：2013-04-02

Applicant: KOREA INSTITUTE OF ENERGY RESEARCH

Inventor： Sukeun Yoon ,  Kyung-Hee Shin ,  Chang soo Jin ,  Kyu-Nam Jung ,  Bum-suk Lee ,  Myung-seok Jeon ,  Sun-Hwa Yeon ,  Jae-Deok Joen ,  Jun-Mook Shim ,  Jung-Hoon Yang ,  Myung-Hyun Ryu

IPC: H01M4/04 ,  H01M4/133 ,  H01M4/131 ,  H01M4/36 ,  H01M4/485 ,  H01M4/587

CPC classification number: H01M4/04 ,  H01M4/0438 ,  H01M4/0471 ,  H01M4/131 ,  H01M4/133 ,  H01M4/362 ,  H01M4/485 ,  H01M4/587 ,  Y02E60/122 ,  Y02P70/54

Abstract: Disclosed is to a method of manufacturing an anode active material, including mixing a first solution having a metal oxide precursor dissolved therein, a second solution having a polymer as a carbon fiber precursor dissolved therein, and an ionic liquid solution for nitrogen doping and formation of a porous structure, thus preparing an electrospinning solution, electrospinning the electrospinning solution, thus preparing a metal oxide-nitrogen-porous carbon nanofiber composite, and thermally treating the composite, and to an anode and a lithium battery using the anode active material.

Abstract translation: 本发明公开了一种制造负极活性物质的方法，包括将溶解有金属氧化物前体的第一溶液，溶解有碳纤维前体的聚合物的第二溶液和氮掺杂用的离子液体溶液混合， 制备电纺丝溶液，静电纺丝溶液，制备金属氧化物 - 氮多孔碳纳米纤维复合材料，并使用阳极活性材料热处理复合材料和阳极和锂电池。