公开(公告)号：US10975476B2

公开(公告)日：2021-04-13

申请号：US16198286

申请日：2018-11-21

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Jong Hyun Jang ,  Seunghoe Choe ,  Youngseung Na ,  Hye Jin Lee ,  Ahyoun Lim ,  Hyoung-Juhn Kim ,  Dirk Henkensmeier ,  Sung Jong Yoo ,  Jin Young Kim ,  So Young Lee ,  Hyun Seo Park

IPC: C25B1/04 ,  C25D9/06 ,  C25B9/23 ,  C25B11/031 ,  C25B11/075 ,  C25B11/063 ,  C25B11/052 ,  C25D9/04

Abstract: The present disclosure relates to an IrO2 electrodeposited porous titanium composite layer of a polymer electrolyte membrane water electrolysis apparatus serving as both a diffusion layer and an oxygen electrode, the apparatus including: a porous titanium (Ti) layer; and an electrodeposited iridium oxide (IrO2) layer on the porous Ti layer. The IrO2 layer may be uniformly deposited on a porous Ti layer through an electrolysis process, and the electrodeposited IrO2 layer may play multiple roles as not only a catalyst layer toward oxygen evolution reaction (OER) on the surface of the Ti layer, but also a corrosion-protection layer which prevents an inner Ti layer from corrosion.

公开(公告)号：US09522427B2

公开(公告)日：2016-12-20

申请号：US13796083

申请日：2013-03-12

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Dirk Henkensmeier ,  Quoc Khanh Dang ,  Chang Won Yoon ,  Eun Ae Cho ,  Suk Woo Nam ,  Tae Hoon Lim ,  Hyoung-Juhn Kim ,  Jong Hyun Jang

IPC: H01M8/1023 ,  H01M8/1081 ,  H01M8/1067 ,  H01M8/1039 ,  H01M8/1053 ,  B23B3/26 ,  B29C39/00 ,  H01M8/10 ,  B29K105/00 ,  B29L31/34 ,  B29L31/00

CPC classification number: B23B3/26 ,  B29C39/003 ,  B29K2105/0073 ,  B29L2031/3468 ,  B29L2031/755 ,  B32B3/26 ,  B32B5/145 ,  B32B23/048 ,  B32B27/08 ,  B32B27/28 ,  B32B2255/10 ,  B32B2255/26 ,  B32B2307/204 ,  B32B2457/18 ,  H01M8/1004 ,  H01M8/1039 ,  H01M8/1053 ,  H01M8/1081 ,  Y02E60/523 ,  Y02P70/56 ,  Y10T428/249981 ,  Y10T428/249991

Abstract: Provided are a perfluorinated sulfonic acid polymer membrane having a porous surface layer, which includes a surface layer and a bottom layer present at the bottom of the surface layer, wherein the surface layer is a porous layer, and the bottom layer is non-porous dense layer, and a method for preparing the same through a solvent evaporation process.

Abstract translation: 提供一种具有多孔表面层的全氟化磺酸聚合物膜，其包括存在于表面层底部的表面层和底层，其中表面层为多孔层，底层为无孔密度 层，以及通过溶剂蒸发法制备其的方法。

公开(公告)号：US20160204459A1

公开(公告)日：2016-07-14

申请号：US14983439

申请日：2015-12-29

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Dirk Henkensmeier ,  Dickson Joseph ,  Jong Hyun Jang ,  Jin Young Kim ,  Hyoung-Juhn Kim ,  Jonghee Han ,  Suk Woo Nam ,  Sung Pil Yoon

IPC: H01M8/1023 ,  H01M8/1081 ,  H01M8/1067 ,  H01M8/1039 ,  H01M8/1053

CPC classification number: H01M8/1023 ,  H01M8/1039 ,  H01M8/1053 ,  H01M8/1067 ,  H01M8/1081 ,  H01M2300/0082 ,  Y02P70/56

Abstract: Provided are a method for preparing a Nafion membrane having a through-pore free monolithic porous structure throughout the bulk of the membrane through a one-step process very easily and a Nafion membrane having a through-pore free monolithic porous structure obtained from the method. The Nafion membrane having such a porous structure may have an increased surface area, and thus may improve the membrane/catalyst interfacial area and transport characteristics.

Abstract translation: 提供了一种通过非常容易地通过一步法制备具有贯穿整个膜的整体的具有无孔隙整体多孔结构的Nafion膜的方法，以及由该方法获得的具有无孔隙的整体多孔结构的Nafion膜。 具有这种多孔结构的Nafion膜可以具有增加的表面积，从而可以提高膜/催化剂界面面积和输送特性。

公开(公告)号：US10461350B2

公开(公告)日：2019-10-29

申请号：US15686689

申请日：2017-08-25

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Jong Hyun Jang ,  Hyoung-Juhn Kim ,  Sung Jong Yoo ,  Jin Young Kim ,  Hyung Chul Ham ,  Dirk Henkensmeier ,  So Young Lee ,  Hyun Seo Park ,  Youngseung Na ,  Min Gwan Ha

IPC: C25B3/04 ,  C25B13/08 ,  C25B11/04 ,  C25B9/08 ,  H01M8/1018 ,  H01M8/00 ,  H01M8/0276

Abstract: Disclosed is an electrochemical reaction cell enhancing a reduction reaction. The electrochemical reaction cell enhancing a reduction reaction comprises: a membrane electrode assembly including a polymer electrolytic membrane, a cathode formed by sequentially stacking a first gas diffusion layer and a first catalyst layer on one surface of the electrolytic membrane, and an anode formed by sequentially stacking a second catalyst layer and a second gas diffusion layer on the other surface of the electrolytic membrane; a first distribution plate stacked on the first catalyst layer to supply a reaction gas and a cathode electrolytic solution dissolved with the reaction gas to the first catalyst layer along separate channels; and a second distribution plate stacked on the second gas diffusion layer to supply an anode electrolytic solution to the second gas diffusion layer.

公开(公告)号：US10236527B2

公开(公告)日：2019-03-19

申请号：US14983439

申请日：2015-12-29

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Dirk Henkensmeier ,  Dickson Joseph ,  Jong Hyun Jang ,  Jin Young Kim ,  Hyoung-Juhn Kim ,  Jonghee Han ,  Suk Woo Nam ,  Sung Pil Yoon

IPC: H01M8/1023 ,  H01M8/1039 ,  H01M8/1053 ,  H01M8/1067 ,  H01M8/1081

Abstract: Provided are a method for preparing a Nafion membrane having a through-pore free monolithic porous structure throughout the bulk of the membrane through a one-step process very easily and a Nafion membrane having a through-pore free monolithic porous structure obtained from the method. The Nafion membrane having such a porous structure may have an increased surface area, and thus may improve the membrane/catalyst interfacial area and transport characteristics.

公开(公告)号：US09509008B2

公开(公告)日：2016-11-29

申请号：US14627945

申请日：2015-02-20

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Hyoung-Juhn Kim ,  Jin Young Kim ,  Sung Jong Yoo ,  Jong Hyun Jang ,  Eun Ae Cho ,  Sun-Hee Choi ,  Jonghee Han ,  Hyung Chul Ham ,  Dirk Henkensmeier

IPC: C08G69/08 ,  H01M8/10 ,  C08J5/22 ,  C08G73/18 ,  H01M8/08

CPC classification number: H01M8/103 ,  C08G73/18 ,  C08J5/22 ,  C08J5/2256 ,  C08J2379/04 ,  H01M8/083 ,  H01M8/1072 ,  H01M2008/1095 ,  H01M2300/0082 ,  Y02E60/521 ,  Y02P70/56

Abstract: A polybenzimidazole based polymer in which substituted or non-substituted benzyl groups are introduced to the two nitrogen atoms of benzimidazole ring. The benzimidazole ring is not decomposed by the attack of hydroxide ions but shows excellent alkali resistance, and thus maintains high ion conductivity. The polybenzimidazole based polymers are particularly useful for not only solid alkali exchange membrane fuel cells (SAEMFC) but also various industrial fields in which polybenzimidazole based polymers are used.

Abstract translation: 将取代或未取代的苄基引入苯并咪唑环的两个氮原子的聚苯并咪唑基聚合物。 苯并咪唑环不被氢氧根离子的侵蚀分解，但耐碱性优异，因此保持高的离子传导性。 基于聚苯并咪唑的聚合物不仅可用于固体碱交换膜燃料电池（SAEMFC），还可用于其中使用聚苯并咪唑的聚合物的各种工业领域。

公开(公告)号：US09156008B2

公开(公告)日：2015-10-13

申请号：US13892548

申请日：2013-05-13

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Hyoung-Juhn Kim ,  Jun Young Han ,  Jong Hyun Jang ,  Eun Ae Cho ,  Jonghee Han ,  Suk Woo Nam ,  Tae-Hoon Lim ,  Sung Pil Yoon ,  Sung Jong Yoo ,  Dirk Henkensmeier

IPC: B01D71/62 ,  B01D53/22 ,  B01D67/00 ,  C08G73/18 ,  C01B13/02

CPC classification number: B01D71/62 ,  B01D53/228 ,  B01D67/0002 ,  B01D67/0095 ,  B01D2256/12 ,  B01D2257/102 ,  C01B13/0251 ,  C08G73/18

Abstract: Provided are cardo copolybenzimidazoles, a gas separation membrane using the same and a method for preparing the same. More particularly, provided are cardo copolybenzimidazoles obtained by introducing cardo groups and aromatic ether groups to a polybenzimidazole backbone, a gas separation membrane having significantly improved oxygen permeability by using the same, and a method for preparing the same. The cardo copolybenzimidazoles have improved solubility as compared to the polybenzimidazole polymers according to the related art, show excellent mechanical properties while maintaining thermal stability so as to be formed into a film shape, and provide a gas separation membrane having significantly improved gas permeability, particularly, oxygen permeability.

Abstract translation: 提供的是共聚苯并咪唑类，其使用的气体分离膜及其制备方法。 更具体地说，提供了通过将聚苯并咪唑主链导体基团和芳族醚基团引入的共聚苯并咪唑，通过使用它们具有显着改善的氧渗透性的气体分离膜及其制备方法。 与根据现有技术的聚苯并咪唑聚合物相比，卡诺共聚苯并咪唑具有改善的溶解性，显示优异的机械性能，同时保持热稳定性以形成膜状，并提供具有显着改善的气体渗透性的气体分离膜， 透氧性。

公开(公告)号：US10854886B2

公开(公告)日：2020-12-01

申请号：US16268856

申请日：2019-02-06

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Jong Hyun Jang ,  Hee-Young Park ,  Jea-woo Jung ,  Hyoung-Juhn Kim ,  Dirk Henkensmeier ,  Sung Jong Yoo ,  Jin Young Kim ,  So Young Lee ,  Hyun Seo Park

IPC: H01M4/92

Abstract: A method for preparing a carbon-supported, platinum-cobalt alloy, nanoparticle catalyst includes mixing a solution containing, in combination, a platinum precursor, a transition metal precursor consisting of a transition metal that is cobalt, carbon, a stabilizer that is oleyl amine, and a reducing agent that is sodium borohydride to provide carbon-supported, platinum-cobalt alloy nanoparticles, and washing the carbon-supported, platinum-cobalt alloy, nanoparticles using ethanol and distilled water individually or in combination followed by drying at room temperature to obtain dried carbon-supported, platinum-cobalt alloy, nanoparticles; treating the dried carbon-supported, platinum-cobalt alloy, nanoparticles with an acetic acid solution having a concentration ranging from 1-16M to provide acetic acid-treated nanoparticles, and washing the acetic acid-treated nanoparticles using distilled water followed by drying at room temperature to obtain dried acetic acid-treated nanoparticles; and heat treating the dried acetic acid-treated nanoparticles at a temperature ranging from 600 to 1000° C. under a hydrogen-containing atmosphere.

公开(公告)号：US10669640B2

公开(公告)日：2020-06-02

申请号：US15241798

申请日：2016-08-19

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Jong Hyun Jang ,  Soo-Kil Kim ,  Sang Hyun Ahn ,  Hyoung-Juhn Kim ,  Jin Young Kim ,  Sung Jong Yoo ,  Dirk Henkensmeier ,  Jonghee Han ,  Jaeyune Ryu

IPC: C25B11/04 ,  C25B9/10 ,  C25B1/10 ,  C25D3/12 ,  C25D5/54 ,  C23C18/54

Abstract: Provided is an electrocatalyst for anion exchange membrane water electrolysis, including a carbonaceous material, and nickel electrodeposited on the carbonaceous material, wherein nickel is partially substituted with platinum and the substitution with platinum provides increased hydrogen evolution activity as compared to the same electrocatalyst before substitution with platinum. Also provided are a method for preparing the electrocatalyst and an anion exchange membrane water electrolyzer using the same. The nickel electrocatalyst coated with an ultralow loading amount of platinum for anion exchange membrane water electrolysis shows excellent hydrogen evolution activity and has a small thickness of catalyst, thereby providing high mass transfer and high catalyst availability. In addition, the electrocatalyst uses a particle-type electrode to facilitate emission of hydrogen bubbles generated during hydrogen evolution reaction and oxygen bubbles generated during oxygen evolution reaction, and requires low cost for preparation to provide high cost-efficiency.

公开(公告)号：US10601052B2

公开(公告)日：2020-03-24

申请号：US15360034

申请日：2016-11-23

Applicant: KOREA INSTITUTE OF SCIENCE AND TECHNOLOGY

Inventor： Jong Hyun Jang ,  Byungseok Lee ,  Hee-Young Park ,  Hyoung-Juhn Kim ,  Dirk Henkensmeier ,  Sung Jong Yoo ,  Jin Young Kim ,  So Young Lee ,  Jaeyune Ryu ,  Sung Pil Yoon ,  Jonghee Han ,  Suk Woo Nam

IPC: H01M4/86 ,  H01M4/88 ,  H01M4/92 ,  H01M8/18

Abstract: Disclosed are a reversible fuel cell oxygen electrode in which IrO2 is electrodeposited and formed on a porous carbon material and platinum is applied thereon to form a porous platinum layer, a reversible fuel cell including the same, and a method for preparing the same. According to the corresponding reversible fuel cell oxygen electrode, as the loading amounts of IrO2 and platinum used in the reversible fuel cell oxygen electrode can be lowered, it is possible to exhibit excellent reversible fuel cell performances (excellent fuel cell performance and water electrolysis performance) by improving the mass transport of water and oxygen while being capable of reducing the loading amounts of IrO2 and platinum. Further, it is possible to exhibit a good activity of a catalyst when the present disclosure is applied to a reversible fuel cell oxygen electrode and to reduce corrosion of carbon.