1. Operando X-ray spectroscopic studies of rechargeable Calcium/Selenium Batteries Enabled by Borate-Based Electrolyte

S. Kim*, N. T. Hahn, T. T. Fister, N. J. Leon, X.-M. Lin, H. Park, P. Zapol, S. H. Lapidus, C. Liao, and J. T. Vaughey* 

Chemistry of Materials, 35, 2363–2370, 2023.


2. Room-Temperature Calcium Plating and Stripping Using a Perfluoroalkoxyaluminate Anion Electrolyte

N. J. Leon, X. Xie, M. Yang, D. M. Driscoll, J. G. Connell, S. Kim, T. Seguin, J. T. Vaughey, M. Balasubramanian, K. Persson, C. Liao* 

The Journal of the Physical Chemistry C, 126, 13579-13584, 2022.


3. Thermal conductivity of intercalation, conversion, and alloying lithium-ion battery electrode materials as function of their state of charge 

J. Shin†, S. Kim, H. Park, H. W. Jang, D. G. Cahill*, and P. V. Braun* 

Current Opinion in Solid State & Materials Science, 26, 100980, 2022.


4. Investigation of Ca Insertion into α-MoO3 Nanoparticles for High Capacity Ca-ion Cathodes

S. Kim, L. Yin, S.-M. Bak, T. T. Fister, H. Park, P. Prajuli, J. Gim, Z. Yang, R. Klie, P. Zapol, Y. Du, S. H. Lapidus, and J. T. Vaughey* 

Nano Letters, 22, 2228-2235, 2022.


5. Intercalation of Ca into a Highly Defective Manganese Oxide at Room Temperature

B. J. Kwon*, L. Yin, C. J. Bartel, K. Kumar, P. Parajuli, J. Gim, S. Kim, R. F. Klie, S. H. Lapidus, B. Key, G. Ceder, and J. Cabana*  

Chemistry of Materials, 34, 836-846, 2022.


6. High-Voltage Phosphate Cathodes for Rechargeable Ca-Ion Batteries

S. Kim, L. Yin, M. H. Lee, P. Parajuli, L. Blanc, T. T. Fister, H. Park, B, J. Kwon, B. J. Ingram, P. Zapol, R. F. Klie, K. Kang, L. F. Nazar*, S. H. Lapidus, and J. T. Vaughey* 

ACS Energy Letters, 5, 3203−3211, 2020.


7. High Voltage Mg-Ion Battery Cathode via a Solid Solution Cr–Mn Spinel Oxide

B. J. Kwon*, L. Yin, H. Park, P. Parajuli, K. Kumar, S. Kim, M. Yang, M. Murphy, P. Zapol, C. Liao, T. T. Fister, R. F. Klie, J. Cabana, J. T. Vaughey, S. H. Lapidus, and B. Key*  

Chemistry of Materials, 32, 6577−6587, 2020.


8. Ca Cobaltites as Potential Cathode Materials for Rechargeable Ca-Ion Batteries: Theory and Experiment

H. Park, Y. Cui, S. Kim, J. T. Vaughey, and Peter Zapol* 

The Journal of the Physical Chemistry C, 124, 5902−5909, 2020.


9. High Volumetric and gravimetric capacity 3D sodium ion battery anodes

S. Kim, S. Qu, R. Zhang, and P.V. Braun* 

Small, 15, 1900258, 2019.


10. Reversible Conversion Reactions and Small First Cycle Irreversible Capacity Loss in Metal Sulfide‐Based Electrodes Enabled by Solid Electrolytes, 

S. Kim, J. Choi†, S.-M. Bak, L. Sang, Q. Li and P.V. Braun* 

Advanced Functional Materials, 29, 1901719, 2019.


11. Rational Design of Hierarchically Open-Porous Spherical Hybrid Architectures for Lithium Ion Batteries

S. Yun†, S.-M. Bak†, S. Kim, J. S. Yeon, M. K. Kim, X.-Q. Yang, P. V. Braun*, and H. S. Park* 

Advanced Energy Materials, 9, 1802816, 2019.


12. High Capacity 3D Structured Tin-Based Electroplated Li-ion Battery Anodes

P. Sun†*, J. Davis†, L. Cao, Z. Jiang, J. B. Cook, H. Ning, J. Liu, S. Kim, F. Fan, R. G. Nuzzo, and P. V. Braun* 

Energy Storage Materials, 17, 151-156, 2019.


13. High Energy Density CNT/NaI Composite Cathodes for Sodium-Ion Batteries

S. Kim, X. Li, L. Sang, R. G. Nuzzo, A. A. Gewirth, and P. V. Braun* 

Advanced Materials Interfaces, 5, 1801342, 2018.


14. Reduced graphene oxide/LiI composite lithium ion battery cathodes

S. Kim, S.-K. Kim, P. Sun, N. Oh and P.V. Braun* 

Nano Letters, 17, 6893-6899, 2017.


15. Improved performance in FeF2 Conversion Cathodes through use of a Conductive 3D scaffold and Al2O3 ALD coating

S. Kim, J. Liu, K. Sun, S.J. Dillon and P.V. Braun* 

Advanced Functional Materials, 27, 1702783, 2017.


16. Enhanced Secondary Battery Anodes Based on Si and Fe3O4 Nanoparticle Infilled Monodisperse Carbon Starburst Colloidal Crystals

M.D. Goodman, S. Kim, N. b. Tatsuda, K. Yano*, and P.V. Braun* 

Particle and Particle Systems Characterization, 32, 928-933, 2015.


17. Hierarchical assembly of TiO2-SrTiO3 heterostructures on conductive SnO2 backbone nanobelts for enhanced photoelectrochemical and photocatalytic      performance

S. Park, S. H. Kim, H. J. Kim, C. W. Lee, H. J. Song, S. W. Seo, H. K. Park, D.-W. Kim*, and K. S. Hong* 

Journal of Hazardous Materials, 275, 10-18, 2014.


18. A ferroelectric photocatalyst for enhancing hydrogen evolution: Polarized particulate suspension

S. Park, C. W. Lee, M.-G. Kang, S. H. Kim, H. J. Kim, J.E. Kwon, S.Y. Park, C.-Y. Kang, K. S. Hong*, and K. T. Nam* 

Physical Chemistry Chemical Physics, 16, 10408-10413, 2014.


19. Solvothermal Synthesis of SnNb2O6 Nanoplates and Enhanced Photocatalytic H2 Evolution under Visible Light

S. W. Seo, T. H. Noh, S. Park, C. W. Lee, S. H. Kim, H. J. Kim, H. K. Park, and K. S. Hong* 

International Journal of Hydrogen Energy, 39, 17517-17523, 2014.


20. Growth of anatase and rutile TiO2@Sb:SnO2 heterostructures and their application in photoelectrochemical water splitting

S. Park, C. W. Lee, I. S. Cho, S. H. Kim, J. H. Park, H. J. Kim, D.-W. Kim, S. Lee*, and K. S. Hong* 

International Journal of Hydrogen Energy, 39, 17508-17516, 2014.


21. Photophysical and Photocatalytic Water splitting Performance of Stibiotantalate Compounds, SbMO4 (M = Nb, Ta)

S. H. Kim, S. Park, C. W. Lee, B. S. Han, S. W. Seo, J. S. Kim, I. S. Cho*, and K. S. Hong* 

International Journal of Hydrogen Energy, 37, 16895–16902, 2012.


22. Enhanced performance of NaTaO3 by molecular co–catalyst [Mo3S4]4+ for water splitting into H2 and O2

S. W. Seo†, S. Park†, H.-Y. Jeong, S. H. Kim, U. Sim, C. W. Lee, K. T. Nam*, and K. S. Hong* 

Chemical Communications, 48, 10452–10454, 2012.


(†: co-first authors, *: corresponding authors)