公开(公告)号：US20140264185A1

公开(公告)日：2014-09-18

申请号：US13944457

申请日：2013-07-17

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Hyung Sun KIM ,  Byung Won CHO ,  Hwa Young LEE ,  Eun Jung SHIN ,  Soo KIM ,  Kyung Yoon CHUNG

IPC: C01B25/45 ,  H01M4/58 ,  C01B25/37 ,  H01M10/54

CPC classification number: C01B25/45 ,  C01B25/375 ,  H01M4/5825 ,  H01M10/54 ,  Y02W30/84

Abstract: The present invention relates to a method for recycling LiFePO4, which is an olivine-based cathode material for a lithium secondary battery. The present invention is characterized in that a cathode material including LiFePO4 is synthesized using, as precursors, amorphous FePO4.XH2O and crystalline FePO4.2H2O (metastrengite) obtained by chemically treating LiFePO4 as an olivine-based cathode material for a lithium secondary battery, which is produced from a waste battery. Since a cathode fabricated from the LiFePO4 cathode material synthesized according to the present invention does not deteriorate the capacity, output characteristics, cycle efficiency and performance of the secondary battery and the cathode material of the lithium secondary battery may be recycled, the secondary battery is economically efficient.

Abstract translation: 本发明涉及一种再循环LiFePO4的方法，该方法是锂二次电池的橄榄石型阴极材料。 本发明的特征在于，使用通过化学处理作为锂二次电池的橄榄石型阴极材料的LiFePO 4获得的无定形FePO 4·XH 2 O和结晶FePO 4·2H 2 O（钛金刚石）作为前体，合成了包含LiFePO 4的阴极材料， 是由废电池产生的。 由于由根据本发明合成的LiFePO 4阴极材料制造的阴极不会劣化二次电池和锂二次电池的正极材料的容量，输出特性，循环效率和性能可以再循环，所以二次电池是经济的 高效。

公开(公告)号：US20140099552A1

公开(公告)日：2014-04-10

申请号：US13738044

申请日：2013-01-10

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Kyung Yoon CHUNG ,  Dieky SUSANTO ,  Won Young CHANG ,  Byung Won CHO

IPC: H01M4/505

CPC classification number: H01M4/505 ,  H01M4/131 ,  H01M4/1391 ,  H01M4/364 ,  H01M10/052

Abstract: The present disclosure relates to a nanocomposite cathode active material for a lithium secondary battery, a method for preparing same, and a lithium secondary battery including same. More particularly, the present disclosure relates to a nanocomposite cathode active material for a lithium secondary battery including: a core including LiMn2O4; and LiMn(PO3)3 distributed on the surface of the core.In accordance with the present disclosure, the time and cost for manufacturing a lithium secondary battery can be reduced and the manufactured lithium secondary battery has superior electrochemical properties.

Abstract translation: 本发明涉及一种锂二次电池用纳米复合阴极活性物质及其制备方法，以及包含锂二次电池的锂二次电池。 更具体地，本公开涉及一种用于锂二次电池的纳米复合阴极活性材料，其包括：包含LiMn 2 O 4的核; 和分布在芯表面上的LiMn（PO3）3。 根据本公开，可以减少制造锂二次电池的时间和成本，并且制造的锂二次电池具有优异的电化学性能。

公开(公告)号：US20130302690A1

公开(公告)日：2013-11-14

申请号：US13662994

申请日：2012-10-29

Applicant: Korea Institute of Science and Technology

Inventor： Jaehoon KIM ,  Jong Min PARK ,  Kyung Yoon CHUNG ,  Agung NUGROHO ,  Byung Won CHO

IPC: H01M4/485 ,  H01M4/04 ,  C01G23/04 ,  B82Y40/00 ,  B82Y30/00

CPC classification number: H01M4/366 ,  H01M4/1391 ,  H01M4/485 ,  H01M4/587 ,  H01M4/625 ,  H01M10/052

Abstract: Disclosed is a method for carbon coating on lithium titanium oxide-based anode active material nanoparticles. The method includes (a) introducing a lithium precursor solution, a titanium precursor solution and a surface modifier solution into a reactor, and reacting the solutions under supercritical fluid conditions to prepare a solution including nanoparticles of an anode active material represented by Li4Ti5O12, (b) separating the anode active material nanoparticles from the reaction solution, and (c) calcining the anode active material nanoparticles to uniformly coat the surface of the nanoparticles with carbon. Further disclosed are carbon-coated lithium titanium oxide-based anode active material nanoparticles produced by the method. In the anode active material nanoparticles, lithium ions are transferred rapidly. In addition, the uniform carbon coating ensures high electrical conductivity, allowing the anode active material nanoparticles to have excellent electrochemical properties.

Abstract translation: 公开了一种在基于二氧化钛的阳极活性材料纳米颗粒上涂覆碳的方法。 该方法包括（a）将锂前体溶液，钛前体溶液和表面改性剂溶液引入反应器中，并在超临界流体条件下使溶液反应以制备包含由Li 4 Ti 5 O 12表示的负极活性物质的纳米颗粒的溶液（b ）从反应溶液中分离阳极活性材料纳米颗粒，和（c）煅烧阳极活性材料纳米颗粒以均匀地涂覆纳米颗粒的表面。 进一步公开了通过该方法制备的碳涂覆的基于二氧化钛的负极活性材料纳米颗粒。 在阳极活性材料纳米颗粒中，锂离子迅速转移。 此外，均匀的碳涂层确保高导电性，允许阳极活性材料纳米颗粒具有优异的电化学性质。

公开(公告)号：US20170212062A1

公开(公告)日：2017-07-27

申请号：US15099678

申请日：2016-04-15

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Kyung Yoon CHUNG ,  Dong Hyun KIM ,  Susanto DIEKY ,  Yeojo YOON ,  Byung Won CHO ,  Si Hyoung OH ,  Won Young CHANG

IPC: G01N23/20 ,  G01N23/207

CPC classification number: G01N23/20025 ,  G01N1/44 ,  G01N23/20008 ,  G01N23/20033 ,  G01N23/207 ,  G01N2223/309 ,  G01N2223/3106 ,  H05G1/34

Abstract: Provided is a furnace for a transmission mode X-ray diffractometer and a transmission mode X-ray diffractometer using the same. The furnace for a transmission mode X-ray diffractometer includes a sample heating unit disposed adjacent to a quartz capillary accommodating a sample to heat the sample, and a main body disposed to surround the quartz capillary and the sample heating unit and having an insulating function for allowing the heated sample to maintain a thermal equilibrium state.

公开(公告)号：US20160329563A1

公开(公告)日：2016-11-10

申请号：US14842752

申请日：2015-09-01

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Si Hyoung OH ,  Byung Won CHO ,  Kyung Yoon CHUNG ,  Hae Ri LEE

IPC: H01M4/505 ,  H01M4/36 ,  H01M10/052

CPC classification number: H01M4/366 ,  H01M4/505 ,  H01M4/5825 ,  H01M10/052 ,  H01M2004/028 ,  Y02E60/122

Abstract: Provided are a cathode active material coated with a fluorine-doped spinel-structured lithium metal manganese oxide, a lithium secondary battery including the same, and a method for preparing the same. The cathode active material has improved chemical stability and provides improved charge/discharge characteristics at elevated temperature (55-60° C.) and high rate. The cathode active material allows lithium ions to pass through the coating layer with ease and is chemically stable, and thus may be used effectively as a cathode active material for a high-power lithium secondary battery.

Abstract translation: 提供涂覆有掺杂氟的尖晶石结构的锂金属锰氧化物的正极活性材料，包括其的锂二次电池及其制备方法。 阴极活性材料具有改善的化学稳定性，并且在高温（55-60℃）和高速率下提供改善的充放电特性。 阴极活性材料容易使锂离子通过涂层，并且化学稳定，因此可以有效地用作高功率锂二次电池的阴极活性材料。

公开(公告)号：US20160028117A1

公开(公告)日：2016-01-28

申请号：US14633807

申请日：2015-02-27

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Si Hyoung OH ,  Byung Won CHO ,  Kyung Yoon CHUNG ,  Joong Kee LEE ,  Won Young CHANG ,  Jae Hyun CHO ,  Junghoon HA

IPC: H01M10/0567 ,  H01M10/0568 ,  H01M10/054

CPC classification number: H01M10/0567 ,  H01M10/054 ,  H01M10/0568 ,  H01M10/0569 ,  H01M2300/0025

Abstract: Disclosed is an electrolyte solution for a magnesium rechargeable battery with a high ionic conductivity and a wide electrochemical window compared to the conventional electrolyte solution. The electrolyte solution is prepared by dissolving magnesium metal into the ethereal solution using combinations of metal chloride catalysts. The electrolyte solution can be applied to fabricate magnesium rechargeable batteries and magnesium hybrid batteries with a markedly increased reversible capacity, rate capability, and cycle life compared to those batteries employing the conventional electrolyte solution. Also disclosed is a method for preparing the electrolyte.

Abstract translation: 公开了与常规电解质溶液相比，具有高离子电导率和宽电化学窗口的镁可充电电池的电解液。 通过使用金属氯化物催化剂的组合将镁金属溶解在醚溶液中来制备电解质溶液。 与使用常规电解质溶液的电池相比，电解质溶液可用于制造镁可充电电池和镁混合电池，其具有显着增加的可逆容量，速率能力和循环寿命。 还公开了一种制备电解质的方法。

公开(公告)号：US20160020464A1

公开(公告)日：2016-01-21

申请号：US14528609

申请日：2014-10-30

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Kyung Yoon CHUNG ,  Ji Ung KIM ,  Haein JO ,  Ji-Young KIM ,  Si Hyoung OH ,  Won Chang CHOI ,  Hwa Young LEE ,  Byung Won CHO

IPC: H01M4/58 ,  H01M4/136

CPC classification number: H01M4/5825 ,  H01M4/0471 ,  H01M4/136 ,  H01M4/505 ,  H01M10/052 ,  H01M2004/021

Abstract: Disclosed is a lithium manganese borate-based cathode active material. The cathode active material can be used to fabricate a lithium ion secondary battery that has advantages, such as high output capacity and cycle capacity, in comparison with lithium ion secondary batteries using conventional cathode active materials. Also disclosed are a lithium ion secondary battery including the cathode active material and a method for preparing the cathode active material.

Abstract translation: 公开了一种基于硼酸锂的阴极活性材料。 与使用常规的阴极活性物质的锂离子二次电池相比，正极活性物质可用于制造具有诸如高输出容量和循环容量等优点的锂离子二次电池。 还公开了包括阴极活性材料的锂离子二次电池和制备阴极活性材料的方法。

公开(公告)号：US20130299735A1

公开(公告)日：2013-11-14

申请号：US13853141

申请日：2013-03-29

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Kyung Yoon CHUNG ,  Byung Won CHO ,  Won Young CHANG ,  Jae Hyung CHO ,  Jae-kyo NOH ,  Soo KIM ,  Sujin KIM

IPC: H01M4/04

CPC classification number: H01M4/0497 ,  B82Y30/00 ,  C01G45/125 ,  C01G53/50 ,  C01P2002/52 ,  C01P2002/85 ,  C01P2004/04 ,  C01P2004/64 ,  C01P2004/84 ,  H01M4/0471 ,  H01M4/364 ,  H01M4/505 ,  H01M4/525

Abstract: Disclosed is a method of producing a nanocomposite cathode active material for a lithium secondary battery, represented by the following formula: xLi2MnO3—(1−x)LiMO2 wherein M is Nia—Mnb—Coc, x is a decimal number from 0.1 to 0.9, and a, b and c are independently a decimal number from 0.05 to 0.9. The method includes mixing a lithium compound with a manganese compound to prepare Li2MnO3 as a first cathode active material, mixing a mixed solution of nickel sulfate/manganese sulfate/cobalt sulfate, a sodium hydroxide solution and aqueous ammonia to prepare a coprecipitated hydroxide represented by (Nia—Mnb—Coc)(OH)2 wherein a, b and c are as defined above, mixing the coprecipitated hydroxide with a lithium compound to prepare a second cathode active material represented by LiMO2 wherein M is as defined above, and mixing the first cathode active material with the second cathode active material. The nanocomposite cathode active material has improved electrochemical properties, such as stability, electrode capacity and cycle life in the high-voltage region.

Abstract translation: 公开了一种制备用于锂二次电池的纳米复合阴极活性材料的方法，由下式表示：xLi2MnO3-（1-x）LiMO2其中M是Nia-Mnb-Coc，x是0.1至0.9的十进制数， 和a，b和c独立地为0.05至0.9的十进制数。 该方法包括将锂化合物与锰化合物混合以制备Li2MnO3作为第一正极活性物质，混合硫酸镍/硫酸锰/硫酸钴，氢氧化钠溶液和氨水的混合溶液，制备由（ Nia-Mnb-Coc）（OH）2，其中a，b和c如上所定义，将共沉淀的氢氧化物与锂化合物混合以制备由LiMO2表示的第二正极活性物质，其中M如上所定义， 阴极活性材料与第二阴极活性材料。 纳米复合阴极活性材料具有改善的电化学性能，例如高压区域的稳定性，电极容量和循环寿命。

公开(公告)号：US20170187032A1

公开(公告)日：2017-06-29

申请号：US15149520

申请日：2016-05-09

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Won Young CHANG ,  Byung Won CHO ,  Kyung Yoon CHUNG ,  Si Hyoung OH ,  Young Sun SHIN ,  Sooyeon HWANG ,  Yoon Bong OH

IPC: H01M4/134 ,  H01M4/62 ,  H01M4/1395 ,  H01M10/0568 ,  H01M10/0525 ,  H01M10/0585 ,  H01M2/16 ,  H01M10/0569 ,  H01M4/38 ,  H01M4/04

CPC classification number: H01M4/134 ,  H01M4/0471 ,  H01M4/1395 ,  H01M4/366 ,  H01M4/386 ,  H01M4/62 ,  H01M4/625 ,  H01M10/052

Abstract: Disclosed is a silicon-based anode active material for a lithium secondary battery. The silicon-based anode active material imparts high capacity and high power to the lithium secondary battery, can be used for a long time, and has good thermal stability. Also disclosed is a method for preparing the silicon-based anode active material. The method includes (A) binding metal oxide particles to the entire surface of silicon particles or portions thereof to form a silicon-metal oxide composite, (B) coating the surface of the silicon-metal oxide composite with a polymeric material to form a silicon-metal oxide-polymeric material composite, and (C) heat treating the silicon-metal oxide-polymeric material composite under an inert gas atmosphere to convert the coated polymeric material layer into a carbon coating layer.

公开(公告)号：US20160372787A1

公开(公告)日：2016-12-22

申请号：US14951973

申请日：2015-11-25

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Kyung Yoon CHUNG ,  Hun-Gi JUNG ,  Won Young CHANG ,  Byung Won CHO ,  Wonchang CHOI ,  Si Hyoung OH ,  Yoon-Sung LEE ,  Susanto DIEKY ,  Dong-Won KIM ,  Won-Kyung SHIN

IPC: H01M10/0565

CPC classification number: H01M10/0565 ,  H01M10/052 ,  H01M2300/0085

Abstract: Provided are a gel polymer electrolyte and a secondary battery including the same. More particularly, the gel polymer electrolyte includes a sodium cation-containing polymer from which sodium cations can be dissociated, and thus provides improved ion conductivity of sodium cations, thereby improving the electrochemical properties of a secondary battery.

Abstract translation: 提供了一种凝胶聚合物电解质和包含该聚合物电解质的二次电池。 更具体地说，凝胶聚合物电解质包括含钠阳离子的聚合物，钠阳离子可以从其中解离，从而提供了钠阳离子的改进的离子传导性，从而提高了二次电池的电化学性能。