導師資訊

University of Macau

UMAC-Institute of Applied Physics and Materials Engineering

Homepage: https://iapme.um.edu.mo/people/academic-staff/hui-kwun-nam/research-group/ ORCID: http://orcid.org/0000-0002-3008-8571 Publons WOB: https://publons.com/researcher/3212900/kwun-nam-hui/ Web of Science: https://www.webofscience.com/wos/author/rid/AAE-2840-2019 Scopus: https://www.scopus.com/authid/detail.uri?authorId=56861786200 Google scholar: https://scholar.google.com/citations?hl=en&user=v2sw5DUAAAAJ&view_op=list_works&sortby=pubdate

三維有序大孔結構嵌入多中心金屬原子催化劑在鋰硫電池中多硫化物穿梭效應的機理研究

Mechanistic Study of Polysulfide Shuttle Effect of 3D Ordered Macroporous Structure Embedded Multi-centre Metal Atom Catalysts for Lithium-Sulfur Battery

0805 材料科学与工程

0702 物理学,0703 化学,0704 天文学,0707 海洋科学,0708 地球物理学,0709 地质学,0713 生态学,0802 机械工程,0805 材料科学与工程,0808 电气工程,0811 控制科学与工程,0814 土木工程,0831 生物医学工程,1001 基础医学,1004 公共卫生与预防医学,1007 药学,1008 中药学

Electrochemical storage experience; battery research experience

PhD degree in electrochemical storage area

Publication record of electrochemical storage device

1) Research and development and achievement transformation of high-performance sodium-ion batteries for energy storage, 2022 Guangdong-Hong Kong-Macao Science and Technology Cooperation Theme - Hong Kong and Macao Science and Technology Achievements Transforming into Guangdong, 01/09/2022-31/08/2024, MOP 564,217 (USD 61,842), funded, Role: PI 2) Mechanistic Study of Polysulfide Shuttle Effect of 3D Ordered Macroporous Structure Embedded Multi-centre Metal Atom Catalysts for Lithium-Sulfur Battery, Multi-Year Research Grant (MYRG), University of Macau, 01/2023-12/2024, MOP 544,000 (USD 67,281), funded, MYRG2022-00223-IAPME, Role: PI 3) Large-scale synthesis of single-atom catalysts and industrialization of high-performance zinc-air batteries, Science and Technology Fund of Macau (FDCT), 17/05/2022-16/05/2024, MOP 850,000 (USD 124,248), funded, 0007/2021/AGJ, Role: PI 4) Investigation on the Design and Reaction Mechanism of New Double-atom Catalysts for Hybrid Sodium-air Battery, Multi Y

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1) Research and development and achievement transformation of high-performance sodium-ion batteries for energy storage, 2022 Guangdong-Hong Kong-Macao Science and Technology Cooperation Theme - Hong Kong and Macao Science and Technology Achievements Transforming into Guangdong, 01/09/2022-31/08/2024, MOP 564,217 (USD 61,842), funded, Role: PI
2) Mechanistic Study of Polysulfide Shuttle Effect of 3D Ordered Macroporous Structure Embedded Multi-centre Metal Atom Catalysts for Lithium-Sulfur Battery, Multi-Year Research Grant (MYRG), University of Macau, 01/2023-12/2024, MOP 544,000 (USD 67,281), funded, MYRG2022-00223-IAPME, Role: PI
3) Large-scale synthesis of single-atom catalysts and industrialization of high-performance zinc-air batteries, Science and Technology Fund of Macau (FDCT), 17/05/2022-16/05/2024, MOP 850,000 (USD 124,248), funded, 0007/2021/AGJ, Role: PI
4) Investigation on the Design and Reaction Mechanism of New Double-atom Catalysts for Hybrid Sodium-air Battery, Multi Year Research Grant (MYRG), University of Macau, 01/01/2022-31/12/2023, MOP 360,000 (USD 44,645), funded, MYRG2020-00187-IAPME Role: PI