报告题目:Development of Advanced Materials for Energy Conversion and Storage:
Experimental Investigations Coupled with Theoretical Studies
报 告 人:Mir F. Mousavi,TMU
时 间:2024年9月26日14:00
地 点:莫干山校区化工5号楼C302
报告摘要:
The quest for a greener and more sustainable energy future relies heavily on the development of advanced materials with distinct properties. The trifunctional electrocatalysis of the oxygen reduction reaction (ORR), oxygen evolution reaction (OER), and hydrogen evolution reaction (HER) are vital for the advancement of electrochemical energy storage and conversion technologies, such as metal-air batteries and overall water-splitting cells. However, these electrocatalytic processes often face challenges like slow kinetics and high overpotentials. Additionally, the development of advanced materials for high-performance batteries and superbatteries is explained. To overcome these issues, researchers have investigated various strategies to design advanced multifunctional electrocatalysts or electrode active materials including those based on metal-organic frameworks (MOFs), layered double hydroxides (LDHs), transition metals-based species, along with their composites. In this way, theoretical studies have significantly facilitated the tasks pursued by experimental chemists. The design principles and structure-activity-performance relationships are discussed. Overall, the advancement of electrocatalysts and energy storage materials shows great potential for achieving a greener energy landscape.
报告人简介:
Mir F. Mousavi,2006年领先科学家(在伊斯兰会议组织成员国)、TMU大学MG电子特聘教授;2007年最多被引用的ISI科学家(前1%,被ESI认可,工程类别);2008年第14届拉齐国际医学科学研究节现代技术第一名、现代科技ISESCO奖;2011年由伊朗MG电子学会(ICS)颁发的分析MG电子杰出教授;2013-2014国际电MG电子学会(ISE)颁发的《MG电子》作者;2019年国家科技部(MSRT)授予的国家特聘教授;2020年由伊朗电MG电子学会(IECS)颁发的电MG电子杰出教授;2019-2022年,科学精英,由伊朗科学精英联合会(ISEF)授予,排名前10名;2022-2023年最多被引用的ISI科学家(前1%,被ESI认可,MG电子类别);2023年科学精英,由伊朗科学精英联合会(ISEF)授予,第一名。现主要研究新型纳米结构材料的合成、基础研究和在电MG电子能量转换和存储系统中的应用。