报告人:陈忠伟
报告时间:2022年7月11日(周一)下午3:00-5:00
报告地点:腾讯会议(911-598-948)
报告邀请人:晏成林
报告人简介:陈忠伟教授是加拿大皇家科学院和加拿大工程院两院院士,现任加拿大国家讲座教授,Waterloo大学清洁能源先进材料实验室主任、Waterloo大学电化学能源系统中心主任。ACS Applied Materials & Interfaces期刊副主编,Renewables期刊主编,国际电化学能源科学学会(IAOEES)共同创始人和副主席。主要研究方向为先进能源材料和燃料电池、金属-空气电池和锂离子电池材料和系统的开发。出版4本专著与400多篇期刊论文,被引超过45,000次,GoogleScholar H指数107。有60多项美国/国际专利,多项已在国际上得到应用转让。2016年获得E.W.R Steacie纪念奖、2017年获得加拿大皇家学会卢瑟福纪念奖,被Clarivate Analytics评为2018 - 2021年全球高被引学者。2017年当选加拿大工程院院士,2019年当选加拿大皇家科学院院士。
报告摘要: The increasing global consumption of fossil fuels, the consequent undesirable rapid growth of CO2 concentrations and environmental destruction are severe challenges to humankind. The electrification of the transportation sector has gained significant traction in the recent years to deal with these challenges. Two primary forms of vehicle electrification, battery and fuel cell electric vehicles (EVs) have received extensive attention and research. Comparatively speaking, battery seems to have won the first short-term race for green ascendancy, but the case for hydrogen fuel cells refuses to go away, even though its start date is receding into the distance. Some big built-in negatives such as battery production sustainability might undermine battery’s long-term dominance, but renewable energy infrastructure still need more time to be sufficiently developed and able to facilitate a holistic hydrogen economy. In great anticipation, we are witnessing the pendulum swing in favor of battery or fuel cells in long-term race.
Herein, we will first present the technical comparison of batteries and fuel cells, then provide a comprehensive evaluation of emerging electric vehicle markets based on various batteries and hydrogen fuel cells, which have the greatest potential to succeed in commercial applications. Additionally, future prospects about batteries and fuel cells towards long-range, low-cost and high-utilization transportation markets will be proposed, the key points are the next-generation 3D solid-state battery with high safety and better production sustainability, high-efficiency non-precious electrocatalyst with low-cost and long-term stability, and the development of infrastructure for hydrogen transportation and distribution with larger scale and better economic feasibility. Beyond these, we will present our recent progress in advanced batteries and fuel cells by focusing on the aspects of low-cost and high-efficiency electrocatalysts for fuel cells, electrode innovation for batteries, electrolyte design towards high energy density and high safety solid-state batteries.