Our Team.

We are looking for highly motivated student researchers interested in synthesizing energy materials for energy storage devices.

Current members

Master's student

석사 2학년

Seung-U Seo

(서승우)

- Li-S battery (Solid electrolyte)

- SAM for anode material

석사 1학년

Sua Choi

(최수아)

- LFP cathode by spray drying process

Undergraduate student

학부 4학년

Yujin Jang

(장유진)

- Polymer electrolyte

학부 4학년

(서재훈)

Li-S battery (Hybrid cathode materials)

학부 3학년

(심경환)

Li-S battery (bifunctional separator)

학부 4학년

(-)

Li-ion Capacitor (Biomass carbon)

학부 3학년

(-)

Li-ion Capacitor (Biomass carbon)

Alumni

2024

Seongho Jo (2 SCIE papers)

1. Facile one-pot synthesis of biomass-derived activated carbon as an interlayer material for a BAC/PE/Al2O3 dual coated separator in Li–S batteries, S. Jo, J.-W. Hong, T. Momma, Y. Park, J. Heo, Jun-Woo Park*, S. Ahn†, RSC Advances (2023)

2. Recent advances in all-solid-state batteries for commercialization, J. Sung, J. Heo, D.-H. Kim, S. Jo, Y.-C. Ha, D. Kim, S. Ahn†, J.-W. Park†, Materials Chemistry Frontiers (2024)

Young-Seok Oh (8 SCIE papers)

1. Recent Advances in Achieving High Energy/Power Density of Lithium–Sulfur Batteries for Current and Near‐Future Applications, J. Heo, H. Gu, C. Lee, J. Sung, D.-H. Kim, J. Han, Y.-S. Oh, S. Ahn†, I. Jeon, J.-W. Park, Batter Energy (2025)

2. Eco-Friendly, Biomass-Derived Materials for Electrochemical Energy Storage Devices, Y.-S. Oh, S.-W. Seo, J.-J. Yang, M. Jeong, S. Ahn†, Coatings (2025)

3. A quasi-solid composite separator asymmetrically coated with biomass-derived activated carbon and Al2O3 for Li-S pouch cells, Y.-S. Oh, S.-W. Seo, J.-J. Yang, M. Jeong, J.-W. Park, S. Ahn†, Biomass and Bioenergy (2025)

4. Electrolyte-as-binder strategy using in situ-formed PDOL gel for binder-free cathodes in flexible quasi-solid-state Li–S batteries, I. Shin, Y.-S. Oh, S.-W. Seo, J. Heo, J.-J. Yang, M. Jeong, J. -W, Park, S. Ahn†, Journal of Materials Chemistry A (2025)

5. Pine Bark-Derived Activated Carbon as a High-Performance Sulfur Host for Lithium–Sulfur Batteries, S. Song, Y.-S. Oh, S.-W. Seo, J.-J. Yang, S. W. Lee, M. Jeong, S.-J. Park, S. Ahn†, Batteries & Supercaps (2025)

6. Suppressing the shuttle effect and lithium dendrite growth in lithium–sulfur batteries using a pine-bark-derived activated carbon-coated separator, S.-W. Seo, J.-J. Yang, Y.-S. Oh, M. Jeong, S.-J. Park, S. Ahn†, Chemical Physics Letters (2026)

7. Multifunctional separator coated with oak mushroom-derived activated carbon for use in suppressing the shuttle effect and improving the cycling stabilities of lithium‑sulfur batteries, S.-W. Seo, J.-J. Yang, Y.-S. Oh, M. Jeong, S.-J. Park, S. Ahn†, Materials Letters (2026)

8. Upcycling oak mushroom waste into nanoporous activated carbon as sulfur hosts for high-performance Li-S batteries, Y.-S. Oh, S.-W. Seo, S. Song, J.-J. Yang, M. Jeong, S.-J. Park, S. Ahn†, Materials Letters (2026)