Publications

Peer-reviewed journals (*: corresponding author, †: equally contributed)

2025

1. S. Ha, D. Lee, D. W. Kim, W.-S. Kim, S.-H. Hong, and K.-H. Kim* "MgP4/hard carbon composite as a high-capacity anode material for next-generation sodium ion batteries"

in preparation

2. J. Kim†, M. H. Choi†, D. W. Kim, I. Choi, Y. S. Park, K.-H. Kim* "Sustainable lithium recovery from spent LiFePO4 cathode via K2S2O8-assisted solid state oxidation through mechanochemistry"

submitted

3. H. Kim, T. Lee, S. Hong, K.-H. Kim, Y. G. Chung* "Data-driven prediction of ionic conductivity in solid-state electrolytes with machine learning and large language models"

submitted

4. J. S. Ha, S. H. Lee, S. J. Lee, I. T. Kim, S. H. Park, W. J. Lee, K.-H. Kim, G. H. Kim, J. Lee, Y. Kim*, S. M. Choi*, Y. S. Park* "Enhanced hydrogen evolution reaction kinetics by sulfur incorporation in transition metal-based oxyhydroxide electrodes"

Korean J. Chem. Eng., in press (2025). [I.F.=3.2]

5. I. T. Kim, S. H. Lee, S. H. Park, S. J. Lee, K.-H. Kim, B. K. Kang, J. Lee, S. M. Choi, Y. Kim*, W.-J. Lee*, Y. S. Park* "Development of Co(OH)2/FeOOH heterostructured electrode via sacrificial template strategy for anion exchange membrane water electrolyzer"

Korean J. Chem. Eng., 13, 10111-10125 (2025). [I.F.=3.2]

6. D. Lee, J. Lee, D. Lee, J. E. Lee, K.-H. Kim*, and S.-H. Hong* "P/MoP2@C composite as a high-rate capable anode for lithium-ion batteries"

J. Power Sources, 646, 237280 (2025).[I.F.=8.1]

7. K. S. Jiang, K.-H. Kim, and B. M. Gallant* "How reliable is coin cell-based ranking of Li anode coulombic efficiency"

Joule, 9(6), 101963 (2025). [I.F.=38.6]

8. K.-H. Kim†, Y. S. Park†, J. M. Lee†, M. H. Seo*, S.-H. Hong*, and S. M. Choi* "Evaluating the phase-dependent electrocatalytic activity of manganese phosphides for hydrogen evolution reaction"

J. Mater. Chem. A, 13, 10111-10125 (2025). [I.F.=10.8]

9. S. Ha, J. Kim, D. W. Kim, J. M. Suh, and K.-H. Kim* "A review of pnictogenides for next-generation anode materials for sodium-ion batteries"

Batteries, 11(2), 54 (2025). [I.F.=4.6]

2024

1. H. Shim†, H.-S. Kim†, J. Y. Jung, K.-H. Kim, H.-H. Kim, E. Lee, D. Lee, W. Cho*, and S.-H. Hong* "Overcoming the interfacial challenges of Ni-rich layered oxide cathodes for all-solid-state batteries through ultrathin and amorphous Al2O3 coating"

J. Mater. Chem. A, 12, 29826-29832 (2024). [I.F.=10.8]

2. D. Lee†, H. J. Song†, S. Ha, J. Lee, H.-H. Kim, S.-H. Hong, and  K.-H. Kim*, "A highly stable insertion type V1-xTixP solid solution as an anode material for high-rate lithium-ion batteries"

J. Electroanal. Chem., 968, 118501 (2024). [I.F.=4.1]

3. I. Choi, S. Ha, and K.-H. Kim*, "Review and recent advances in metal compounds as potential high-performance anodes for sodium ion batteries"

Energies, 17(11), 2646 (2024). [I.F.=3.0]

4. J. Lee, D. Lee, K.-H. Kim*, and S.-H. Hong* "Chromium tetraphosphide (CrP4) as a high performance anode for Li ion and Na ion batteries"

J. Mater. Chem. A, 12, 11463-11472 (2024). [I.F.=10.8]

5. S. Ha and K.-H. Kim*

“Recent progress in developing high-performance anode materials for next-generation sodium-ion batteries”

Ceramist, 27(1), 9-27 (2024).

6. H.-H. Kim, E. Lee, K.-H. Kim, H. Shim, J. Lee, D. Lee, D.-Y. Lee, W.-S. Kim, and S.-H. Hong*

“Synthesis of graphitic carbon coated ZnPS3 and its superior electrochemical properties for lithium and sodium ion storage”

Small Methods, 8, 2301294 (2024). [I.F.=10.7]

7. Y. B. Kim†, H. Y. Seo†, K.-H. Kim, J. S. Cho*, Y. C. Kang*, and G. D. Park*

"Synthesis of iron sulfide nanocrystals encapsulated in highly porous carbon coated CNT microsphere as anode materials for sodium-ion batteries"

Small, 20, 2305686 (2024).  [I.F.=13.0]

8. S. Ha and K.-H. Kim*

“Hybrid energy storage mechanism through solid solution chemistry for advanced secondary batteries”

J. Korean Inst. Electr. Electron. Mater. Eng., 37(1), 11-25 (2024). [Outstanding paper award - Editor's choice]

2023

1. A. M. Melemed, D. A. Skiba, K. J. Steinberg, K.-H. Kim, and B. M. Gallant*

“The impact of differential Ca2+ coordination in borohydride-based electrolyte blends on calcium electrochemistry and SEI formation”

J. Phys. Chem. C, 127(40), 19886-19899 (2023).  [I.F.=3.3]

2. K.-H. Kim, G. M. Hobold, K. J. Steinburg, and B. M. Gallant*

“Confinement effects of hollow structured Pt-Rh electrocatalysts toward complete ethanol electrooxidation”

ACS Nano, 17, 14176-14188 (2023).  [I.F.=15.8]

3. G. M. Hobold, K.-H. Kim, and B. M. Gallant*

“Beneficial vs. inhibiting passivation by the native lithium solid electrolyte interphase revealed by electrochemical Li+ exchange”

Energy Environ. Sci., 16, 2247-2261 (2023). [I.F.=32.4]

4. K.-H. Kim†, D. Hong†, M. G. Kim†, W. Choi, T. Min, Y.-M. Kim, and Y.-H. Choi*

“Exploring the electrocatalytic activity of MoO3 electrocatalyst for oxygen evolution reaction by an incorporation of Li-ions”

ACS Mater. Lett., 5, 1196-1201 (2023). [I.F.=9.9]

5. H.-H. Kim†, K.-H. Kim†, and S.-H. Hong*

“Anion exchanged NiP2-xSx solid solution as an anode for sodium ion battery”

Chem. Eng. J., 455, 140798 (2023). [I.F.=13.4]

2022

1. R. Guo, K.-H. Kim, and B. M. Gallant*

“Impact of LiF particle morphology on overpotential and structure of Li metal deposition”

J. Electrochem. Soc., 169, 100523 (2022). [I.F.=3.1]

2. K. S. Jiang, G. M. Hobold, R. Guo, K.-H. Kim, A. M. Melemed, D. Wang, L. Zuin, and B. M. Gallant*

“Probing the functionality of LiFSI structural derivatives as additives for Li metal anodes”

ACS Energy Lett., 7, 3378-3385 (2022). [I.F.=19.5]

3. K.-H. Kim†, K.-H. Kim†, W. Choi, Y.-M. Kim, S.-H. Hong, and Y.-H. Choi*

“Mapping the electrocatalytic water splitting activity of VO2 across its insulator-to-metal phase transition”

Nanoscale, 14, 8281-8290 (2022). [highlighted as “Front Cover”] [I.F.=5.8]

4. J. Lee, K.-H. Kim, H.-H. Kim, and S.-H. Hong*

“NiP2/C nanocomposite as a high performance anode for sodium ion batteries”

Electrochim. Acta, 403, 139686 (2022). [I.F.=5.5]

2021

1. C.-H. Jung, Q. Li, D.-H. Kim, D. Eum, D. Ko, J. Choi, J. Lee, K.-H. Kim, K. Kang, W. Yang, and S.-H. Hong*

“Revisiting the role of Zr doping in Ni-rich layered cathodes for lithium-ion batteries”

J. Mater. Chem. A, 9, 17415-17424 (2021). [I.F.=10.8]

2. H.-H. Kim, K.-H. Kim, J. Lee, and S.-H. Hong*

“Electrochemical properties and reaction mechanism of NiTi2S4 ternary metal sulfide as an anode for lithium ion battery”

ACS sustain. Chem. Engin., 9, 9680-9688 (2021). [I.F.=7.1]

3. K.-H. Kim, J. Oh, C.-H. Jung, M. Kim, B. M. Gallant, and S.-H. Hong*

“A novel solid solution Mn1-xVxP anode with tunable alloying/insertion hybrid electrochemical reaction for high performance lithium-ion batteries”

Energy Storage Materials, 41, 310-320 (2021). [I.F.=18.9]

4. C.-H. Jung, D.-H. Kim, D. Eum, K.-H. Kim, J. Choi, J. Lee, H.-H. Kim, K. Kang, and S.-H. Hong*

“New insight into microstructure engineering of Ni-rich layered oxide cathode for high performance lithium ion batteries”

Adv. Funct. Mater., 31, 2010095 (2021). [I.F.=18.5]

5. K.-H. Kim and S.-H. Hong*

“Manganese tetraphosphide (MnP4) as a high capacity anode for lithium-ion and sodium-ion batteries”

Adv. Energy Mater., 11(9), 2003609 (2021). [I.F.=24.4]

6. K.-H. Kim and S.-H. Hong*

“Investigation of sodium storage in manganese vanadate MnV2O6 nanobelts and nanoparticles as an anode for sodium-ion batteries”

Electrochim. Acta, 367, 137520 (2021). [I.F.=5.5]

2020

1. K.-H. Kim, Y.-H. Choi*, and S.-H. Hong*

“A MnV2O6/Graphene nanocomposite as an efficient electrocatalyst for the oxygen evolution reaction”

Nanoscale, 12, 16028 (2020). [highlighted as “Front Cover”] [I.F.=5.8]

2. W.-S. Kim, D. K. Cho, H. W. Kim, K.-H. Kim, S.-H. Hong*, and J. Y. Kim*

“Phase-dependent hydrogen evolution activity of nickel phosphide nanosheet arrays in alkaline electrolytes”

Electrochim. Acta, 344, 136116 (2020). [I.F.=5.5]

2019

1. J. Choi, K.-H. Kim, C.-H. Jung, and S.-H. Hong*

“A P2-type Na0.7(Ni0.6Co0.2Mn0.2)O2 cathode with excellent cyclability and rate capability for sodium ion batteries”

Chem. Commun., 55, 11575-11578 (2019). [I.F.=4.3]

2. K.-H. Kim, W.-S. Kim, and S.-H. Hong*

“Solid solution phosphide (Mn1-xFexP) as a tunable conversion/alloying hybrid anode for lithium-ion batteries”

Nanoscale, 11, 13494-13501 (2019). [I.F.=5.8]

3. C.-H. Jung, K.-H. Kim, and S.-H. Hong*

“Stable silicon anode for lithium ion battery through covalent bond formation with binder via esterification”

ACS Appl. Mater. Inter., 11, 26753-26763 (2019). [I.F.=8.5]

4. S. Kwon, K.-H. Kim, W.-S. Kim, and S.-H. Hong*

“Mesoporous Si-Cu nanocomposite anode for lithium ion battery produced by magnesiothermic reduction and electroless deposition”

Nanotechnology, 30, 405401 (2019). [I.F.=2.9]

5. C.-H. Jung, K.-H. Kim, and S.-H. Hong*

“An in situ formed graphene oxide-polyacrylic acid composite cage on silicon microparticles for lithium ion batteries via esterification reaction”

J. Mater. Chem. A, 7, 12763-12772 (2019). [I.F.=10.8]

6. J. Choi, S.-Y. Lee, S. Yoon, K.-H. Kim, M. Kim, and S.-H. Hong*

“The role of Zr doping in Li[Ni0.6Co0.2Mn0.2]O2 as a stable cathode material for lithium ion batteries”

ChemSusChem, 12, 2439-2446 (2019). [I.F.=7.5]

7. K.-H. Kim, J. Choi, and S.-H. Hong*

“Superior electrochemical sodium storage of V4P7 nanoparticle as an anode for rechargeable sodium-ion batteries”

Chem. Commun., 55, 3207-3210 (2019). [I.F.=4.3]

2018

1. J. Choi, W.-S. Kim, K.-H. Kim, and S.-H. Hong*

“Sn4P3-C nanospheres as high capacitive and ultra-stable anodes for sodium ion and lithium ion batteries”

J. Mater. Chem. A, 6, 17437-17443 (2018). [I.F.=10.8]

2. K.-H. Kim, C.-H. Jung, W.-S. Kim, and S.-H. Hong*

“V4P7@C nanocomposite as a high performance anode material for lithium-ion batteries”

J. Power Sources, 400, 204-211 (2018). [I.F.=8.1]

2017

1. H. J. Song, K.-H. Kim, J. C. Kim, and S.-H. Hong*

“Superior sodium storage performance of reduced graphene oxide-supported Na3.12Fe2.44(P2O7)2/C nanocomposite”

Chem. Commun. 53, 9316- 9319 (2017). [I.F.=4.3]

2. K.-H. Kim, E. H. Kang, B. K. Kang, K. Kim, and S.-H. Hong*

“Synthesis of SrLu2O4:Eu2+ red phosphors and their photoluminescence properties”

J. Lumin., 183, 13-16 (2017). [I.F.=3.3]