logo

[세미나: 7월 14일(금), 오후 4시] Prof. JAE CHUL KIM, Stevens Institute of Technology

Title

Designing reversible electro-chemo-mechanical reactions in alkali-ion batteries

Speaker

Prof. JAE CHUL KIM, Stevens Institute of Technology

Education

- 2014 Ph.D., Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA

- 2007 M.E., Materials Science and Engineering, Korea University, Seoul, Korea

- 2005 B.E. with Honors, Materials Science and Engineering, Korea University, Seoul, Korea

Experience

- 2020. 2. ~ Present Visiting Professor, Department of Materials Science and Engineering, Korea University, Seoul, Korea

- 2015. 10. ~ 2018. 7. Postdoctoral Fellow, Materials Sciences Division, Lawrence Berkeley National Laboratory, Berkeley, CA

- 2013. 12. ~ 2015. 10. Postdoctoral Associate, Department of Materials Science and Engineering, Massachusetts Institute of Technology, Cambridge, MA

| Date | Friday, July 14th, 2023

| Time | 16:00 ~ 

| Venue | 33동 125호 (WCU 다목적실) 

[Abstract]

As the market for large-scale batteries rapidly evolves, the need for next-generation batteries 

continues to grow. In this talk, various promising next-generation batteries will be highlighted. 

First, a new battery construction that physically does not require anode materials will be introduced. 

The concept of this “anode-free” battery was proposed to achieve high energy density with 

improved safety. However, practical use of anode-free batteries faces challenges due to 

fundamental problems associated with their poor Coulombic efficiency and substantial volume 

change of the anode-side. We will discuss how to shift energetics of Li plating and stripping in 

anode-free batteries by employing three-dimensional frameworks as a current collector. Also, 

factors to unlock the potential of anode-free batteries will be demonstrated. Mechanically robust 

structures enable reversible Li cycling by suppressing volume change over the extended number 

of cycles. In the context, the practical applications of anode-free batteries will also be discussed.

Second, challenges and opportunities in K-ion batteries will be discussed. As an alternative to Libased technologies to develop stationary energy storage systems, K-ion batteries have attracted 

substantial interest. However, unlike Na-ion batteries that are considered ready for market 

penetration, the development of K-ion batteries is in infancy, especially for their cathode materials. 

To bridge the technology gap in K storage, materials design principles to systematically advance 

K-ion cathodes need to be established. Developing cathode materials that host large K ions requires 

a different perspective from developing cathode materials for smaller ions due to strong Coulombic

interactions between K ions. Polyanionic materials provide a stable framework to reversibly store 

and release K as a cathode material for K-ion batteries. KVPO4F that operates at 4.3 V average 

redox potential is one of the most energy-dense polyanionic cathodes. In this talk, how cation and 

anion mixing affect the K-K interactions and resulting electrochemical properties of KVPO4F will 

be discussed. 

| Host | 강기석 교수(02-880-7088)