Journal

22. Additive roles in halide batteries
TBD

21. Solvent design for aqueous batteries
TBD

20. Additive design for halide batteries
TBD

19. Enhancing reversibility of zinc metal for Zn|| I2 aqueous battery via nanophase-clustered perfluorosulfonic acid layers with tuned sulfonic acid densities
Hyunjin Jung, Young-Gyu Choi, Jaeyeon Lee, Boyeon Kim, Myunghyun Ryu, Sang-Eun Chun, Bong-Jun Chang, Jiyun Heo, Kyu-Nam Jung*, Myung Seok Oh*, Jinhong Lee*, Journal of Power Sources (2025), 652, 237673

18. Tailored Polymer‐Based SEI via iCVD for Stable Zinc Metal Anodes in Aqueous Batteries through Modulation of Hydrophilicity and Elasticity to Inhibit Hydrogen Evolution Reactions
Jaeyeon Lee, Moonwon Lee, Boyeon Kim, Hyunjin Jung, Kanghoon Yim, Myunghyun Ryu, Gi Su Doo, Jae-Hak Choi, Jiyun Heo, Sung Gap Im, Kyu-Nam Jung*, Myung Seok Oh*, Jinhong Lee*, Advanced Functional Materials (2025), e07730

17. Electrolyte design for aqueous Zn batteries

Jiyun Heo, Dejian Dong, Zeyi Wang, Fu Chen, Chunsheng Wang ⃰, Joule (2025), 9, 101844.

16. Versatile Zn hosting Lewis-basic interfacial layer for high-performant Zn reversibility in aqueous Zn ion battery

Jiyun Heo†, Youngil Roh†, Kyungjae Shin, Changmin Lee, Chunsheng Wang ⃰, and Hee-Tak Kim ⃰, Energy Storage Materials (2024), 71, 103580.

15. A zinc-bromine battery with deep eutectic electrolytes

Jiyun Heo, Kyungjae Shin, and Hee-Tak Kim ⃰, Advanced Science (2022), 9, 2204908, featured in Inside Back Cover.

14. Modulation of Solvation Structure and Electrode Work Function by an Ultrathin Layer of Polymer of Intrinsic Microporosity in Zinc Ion Batteries

Jiyun Heo†, Young-Eun Hwang†, Gisu Doo, Jinkwan Jung, Kyungjae Shin, Dong-Yeun Koh ⃰ and Hee-Tak Kim ⃰, Small (2022), 18, 2201163, featured in Back Cover.

13. Suppressing Charge Disproportionation of MnO2 Cathodes in Rechargeable Zinc Ion Batteries via Cooperative Jahn-Teller Distortion

Jiyun Heo†, Sanggyu Chong†, Soohyun Kim, Riyul Kim, Kyungjae Shin, Jihan Kim ⃰ and Hee-Tak Kim ⃰, Batteries & Supercaps (2021), 4, 1881-1888.

12. Catalytic production of impurity-free V3.5+ electrolyte for vanadium redox flow batteries

Jiyun Heo, Jae-Yun Han, Soohyun Kim, Seongmin Yuk, Chanyong Choi, Riyul Kim, Ju-Hyuk Lee, Andy Klassen, Shin-Kun Ryi ⃰ and Hee-Tak Kim ⃰, Nature Communications (2019), 10, 4412, selected as Editor’s Highlight.

11. Lightweight Electrolyte Design for Li/Sulfurized Polyacrylonitrile (SPAN) Batteries

An L. Phan, Bo Nan, Phung M. L. Le, Qiushi Miao, Zhaohui Wu, Kha Le, Fu Chen, Mark Engelhard, Thien Dan Nguyen, Kee Sung Han, Jiyun Heo, Weiran Zhang, Minsung Baek, Jijian Xu, Xiyue Zhang, Ping Liu, Lin Ma*, and Chunsheng Wang*, Advanced Materials (2024), 36, 2406594.

10. Contact problems of IrOx anodes in polymer electrolyte membrane water electrolysis

Gisu Doo, Juseong Park, Jeesoo Park, Jiyun Heo, Jinkwan Jung, Dong Wook Lee, Hanmin Bae, Jonghyun Hyun, Euntaek Oh, Jiyun Kwen, Kyung, Min Kim, and Hee-Tak Kim ⃰, ACS Energy Letters (2023), 8, 5, 2214-2220.

9. Current status and challenges for practical flowless Zn-Br batteries

Kyungjae Shin, Ju-Hyuk Lee, Jiyun Heo, and Hee-Tak Kim ⃰, Current Opinion in Electrochemistry (2022), 32, 100898.

8. Modulated Zn Deposition Glass fiber Interlayers for Enhanced Cycling Stability of Zn-Br Redox Flow Batteries

Riyul Kim, Jinkwan Jung, Ju-Hyuk Lee, Soohyun Kim, Jiyun Heo, Kyungjae Shin, Junhyuk Kim and Hee-Tak Kim ⃰, ACS Sustainable Chemistry & Engineering (2021), 9, 12242-12251.

7. Electrokinetic-Driven Fast Ion Delivery for Reversible Aqueous Zinc Metal Batteries with High Capacity

Soohyun Kim, Jiyun Heo, Riyul Kim, Ju-Hyuk Lee, Joowon Seo, Sehyuk Yoon, Hyomin Lee ⃰, Sung Jae Kim ⃰ and Hee-Tak Kim ⃰, Small (2021), 17, 2008059.

6. Dendrite-fee Zn electrodeposition triggered by interatomic orbital hybridization of Zn and single vacancy carbon defects for aqueous Zn-based flow batteries

Ju-Hyuk Lee, Riyul Kim, Soohyun Kim, Jiyun Heo, Hyeokjin Kwon, Jung Hoon Yang and Hee-Tak Kim ⃰, Energy & Environmental Science (2020), 13, 2839-2848, featured in Front Cover.

5. In-situ observation of the degradation of all-vanadium redox flow batteries with dynamic hydrogen reference electrode under real operation conditions

Chanyong Choi, Soohyun Kim, Riyul Kim, Juhyuk Lee, Jiyun Heo, and Hee-Tak Kim ⃰, Journal of Industrial and Engineering Chemistry (2019), 70, 355-362.

4. Understanding the redox reaction mechanism of vanadium electrolytes in all-vanadium redox flow batteries

Chanyong Choi, Hyungjun Noh, Soohyun Kim, Riyul Kim, Juhyuk Lee, Jiyun Heo, and Hee-Tak Kim ⃰, Journal of Energy Storage (2019), 21, 321-327.

3. Scaling the water cluster size of Nafion membranes for a high performance Zn/Br redox flow battery

Riyul Kim, Seongmin Yuk, Ju-Hyuk Lee, Chanyong Choi, Soohyun Kim, Jiyun Heo, and Hee-Tak Kim ⃰, Journal of Membrane Science (2018), 564, 852-858.

2. Pore-Size-Tuned Graphene Oxide Frameworks as Ion-Selective and Protective Layers on Hydrocarbon Membranes for Vanadium Redox-Flow Batteries

Soohyun Kim†, Junghoon Choi†, Chanyong Choi, Jiyun Heo, Dae Woo Kim, Jang Yong Lee, Young Taik Hong, Hee-Tae Jung ⃰, and Hee-Tak Kim ⃰, Nano Letters (2018), 18, 3962-3968.

1. Ultrathin Nafion-filled porous membrane for zinc/bromine redox flow batteries

Riyul Kim, Hyun Gyu Kim, Gisu Doo, Chanyong Choi, Soohyun Kim, Ju-Hyuk Lee, Jiyun Heo, Ho-Young Jung, and Hee-Tak Kim ⃰, Scientific Reports (2017), 7, 10503.