报告人:邱介山教授,北京化工大学
报告时间:2019年10月20日(周日),上午9:15
报告地点:CCE大楼706
专家介绍:
报告人简介:邱介山, 北京化工大学教授、博士生导师,杰青基金获得者、教育部长江学者特聘教授、全国化工优秀科技工作者、全国百篇优秀博士论文指导教师。主要从事材料化工、能源化工等方面的研究。工作获德国拜尔公司、瑞士加铝公司、香港中华煤气等国际著名企业资助。
在国内外发表刊物论文680余篇,其中590余篇论文发表在Nature Materials, Adv. Mater., Adv. Funct. Mater., Adv. Energy Mater., Energy & Environ. Sci., PNAS, Nature Commun., Nano Energy, ACS Nano, Angew. Chem. Int. Ed., Chem. Soc. Rev., JACS 等国际学术刊物上(IF>7论文200余篇,其中, IF>10论文100余篇; 53篇论文被选为国际学术刊物封面)。发表论文被SCI收录690余篇;论文被SCI总引22600余次,h-index 73 (Web of Sci.);申请及授权发明专利90余件。荣获2项教育部自然科学一等奖等奖励和表彰20余次。入选科睿唯安2018全球高引科学家名单。
现任中国微米纳米技术学会副理事长、中国科协先进材料学会联合体主席团副主席、《化工学报》副主编。
摘要:Functional carbon materials (FCMs) with tuned structure and properties hold great potential in many fields including energy storage, catalysis and environment protection. One of the key issues is how to make FCMs cheaply and quickly. We have developed techniques for making FCMs from different carbonaceous precursors, especially from coal that is cheap and abundant in China, and needs to be effectively used in terms of value-added FCMs. In the present talk, I will report on the fabrication of FCMs from coal for high-performance sodium and potassium-ion batteries, and for CO2 electrocatalytic reduction. The advantages of coal-based FCMs will be highlighted in terms of the cost and structure-performance of the concerned products. The features of FCMs as supports or structure units in composites for energy storage and catalysis will be highlighted briefly. Also, a new formation mechanism of two-dimensional transition metal oxide nanosheets with nanoparticles as intermediate via an unexpected process from 3D to 2D will be reported, which may shed a light on the tuned synthesis of nano-sized materials for catalysis and energy storage.