Publications

26. Rare-Earth Element Substitution of Na1+xZr2SixP3–xO12 (x = 2) Solid Electrolyte: Implications for All-solid-state Na-ion Batteries

S. W. Jung, J. E. Wang, D. G. Kim, H. J. Ma, D. K. Kim*, D. J. Kim*

ACS Applied Nano Materials, 2022, Accepted

25. Graphene Fluoride as a Conductive Agent for Li-argyrodite Electrolyte Containing All-solid-state Batteries  

X. Dai, J. H. Song, J. E. Wang, X. Chen*, D. K. Kim*, D. J. Kim*

Materials Today Chemistry, 2022, 25, 100967

24. F-Diamane-like Nanosheets from Expanded Fluorinated Graphite

M. Colin, X. Chen*, M. Dubois*, A. Rawal, D. J. Kim

Applied Surface Science, 2022, 583, 152534

23. Regulating Lithium Metal interface Using Seed-coating Layer for High-power Batteries

R. Ponraj, J. H. Yun, J. E. Wang, X. Chen, D. J. Kim*, D. K. Kim*

Chemical Engineering Journal, 2022, 134380

22. Spatially Confined Atomic Dispersion of Metals in Thermally Reduced Graphene Oxide Films Carbon

X. Chen*, W. Fan*, X. Dai, J. S. Yun, Y. Huang, X. Wang, D. J. Kim*

Carbon, 2022, 188, 367–375

21. Understanding the Failure Mechanism of Rechargeable Aluminum Batteries: Metal Anode Perspective Through X-ray Tomography

J. E. Wang, A. Gilbert, J. B. Harper*, D. J. Kim*

Advanced Energy and Sustainability Research, 2021, 2100164

20. Melamine-assisted synthesis of vanadium nitride quantum dots: Application for full-cell lithium-ion batteries

P. Muralidharan, J. H. Yun, R. Ponraj, J. E. Wang, D. J. Kim*, D. K. Kim*

Journal of Alloys and Compounds, 2021, 888, 161522


19. Functional and structural insight into lignocellulosic fibers for high-areal-capacity lithium-sulfur batteries

J. H. Yun, J-H, Kim, P. Ragupathy, D. J. Kim*, D. K. Kim*

Journal of Materials Chemistry A, 2021, 9, 18260–18271

Featured as an inside cover

Part of the themed collection: Journal of Materials Chemistry A HOT Papers


18. Improving Room Temperature Ionic Conductivity of Na3–xKxZrSi2PO12 Solid-electrolyte: Effects of Potassium Substitution

E. Heo, J. E. Wang, J. H. Yun, J-H. Kim, D. J. Kim*, D. K. Kim*

Inorganic Chemistry, 2021, 60, 15, 11147–11153


17. Designing high energy sodium-ion battery cathodes by utilizing P2/O3 biphasic structure and lithium honeycomb ordering

J. E. Wang, H. Kim, Y. H. Jung*, D. K. Kim*, D. J. Kim*

Small, 2021, 17, 30, 2100146


16. Molecular pumps and motors

Y. Feng, M. Ovalle, J. S. W. Seale, C. K. Lee, D. J. Kim, R. D. Astumian*, J. F. Stoddart*

Journal of the American Chemical Society, 2021, 143, 15, 5569–5591


15. Ice-templated free-standing reduced graphene oxide for dendrite-free lithium metal batteries

B. Moorthy, R. Ponraj, J. H. Yun, J. E. Wang, D. J. Kim*, D. K. Kim*

ACS Applied Energy Materials, 2020, 3, 11, 11053–11060.


14. Redox-active phenanthrenequinone triangles in aqueous rechargeable zinc batteries

K. W. Nam, H. Kim, Y. Beldjoudi, T-W. Kwon, D. J. Kim*, J.F. Stoddart*

Journal of the American Chemical Society, 2020, 142, 2541-2548.


13. Rechargeable aluminium organic batteries

D. J. Kim, D.J. Yoo, M. T. Otley, A. Prokofjevs, C. Pezzato, M. Owczarek, S. J. Lee, J. W. Choi*, J. F. Stoddart*

Nature Energy, 2019, 4, 51–59.

12. Controlling dual molecular pumps electrochemically

C. Pezzato, M. T. Nguyen, D. J. Kim, O. Anamimoghadam, L. Mosca, J. F. Stoddart*

Angewandte Chemie International Edition, 2018, 57, 9325–9329


11. Catecholamine-functionalized reduced graphene oxide: A scalable carbon host for stable cycling in lithium–sulfur batteries

S.A. Ahad, P.R. Kumar, J.H. Kim, D. J. Kim, P. Ragupathy, D. K. Kim*

Electrochimica Acta. 2017, 246, 451–458


10. An efficient artificial molecular pump

C. Pezzato, M. T. Nguyen, C. Cheng, D. J. Kim, M. T. Otley, J. F. Stoddart*

Tetrahedron, 2017, 73, 4849–4857


9. Redox-active macrocycles for organic rechargeable batteries

D. J. Kim, K.H. Hermann, A. Prokofjevs, M.T. Otley, C. Pezzato, M. Owczarek, J.F. Stoddart*

Journal of the American Chemical Society, 2017, 139, 6635–6643.



8. Chiral redox-active isosceles triangles

S.K.M. Nalluri, Z. Liu, Y. Wu, K.R. Hermann, A. Samanta, D. J. Kim, M.D. Krzyaniak, M.R. Wasielewski, J.F. Stoddart*

Journal of the American Chemical Society, 2016, 138, 5968–5977



7. Nanoporous networks as caging supports for uniform, surfactant-free Co3O4 nanocrystals and their applications in energy storage and conversion

J. Byun, H. A. Patel, D. J. Kim, C. H. Jung, J. Y. Park*, J. W. Choi*, C. T. Yavuz*

Journal of Materials Chemistry A, 2015, 3, 15489–15497


6. An aqueous sodium ion hybrid battery incorporating an organic compound and a prussian blue derivative.

D. J. Kim, Y. H. Jung, K. K. Bharathi, S. H. Je, D. K. Kim*, A. Coskun*, J. W. Choi*

Advanced Energy Materials, 2014, 4. 1400133



5. DNA metallization for high performance Li-ion battery anodes

D. J. Kim, M. A. Woo, Y. L. Jung, K. K. Bharathi, H. G. Park*, D. K. Kim*, J. W. Choi*,

Nano Energy, 2014, 8, 17–24


4. Diffusion behavior of sodium ions in Na0.44MnO2 in aqueous and non-aqueous electrolytes

D. J. Kim, R. Ponraj, A. G. Kannan, H. W. Lee, R. Fathi, R. Ruffo*, D.K. Kim*

Journal of Power Sources, 2013, 244, 758–763


3. Impedance analysis of Na0.44MnO2 positive electrode for reversible sodium batteries in organic electrolyte

R. Ruffo*, R. Fathi, D. J. Kim, Y. H. Jung, C. M. Mari, D. K. Kim

Electrochimica Acta, 2013, 108, 575–582


2. Effect of N-substitution in naphthalenediimides on the electrochemical performance of organic rechargeable batteries

D. J. Kim, S. H. Je, S. Sampath, J. W. Choi*, A. Coskun*

RSC Advances, 2012, 2, 7968–7970


1. Ab initio study of the sodium intercalation and intermediate phases in Na0.44MnO2 for sodium-ion battery

H. Kim, D. J. Kim, D. H. Seo, M. S. Yeom, K. Kang, D. K. Kim*, Y. Jung*

Chemistry of Materials, 2012, 24, 1205–1211