Dorthe Ravnsbæk

Keywords

Materials Chemistry
Energy Materials
Batteries
Nano- and atomic-scale structure
Electrochemistry
in situ and operando methods

Head of the Ravnsbæk Group

Professor Dorthe Ravnsbæk

Developing functional materials for sustainable batteries

Research in the Ravnsbæk Group evolves around developing functional materials for sustainable batteries. Within this topic they investigate novel electrode materials for e.g. Li-, Na- and Mg-ion batteries with activities spanning from synthesis over materials characterization to battery fabrication and electrochemical analysis. Furthermore, they are involved in a series of effort exploring methods to stabilize the electrode and the electrodes under high-potential or high mechanical strain conditions.

The focus of the Ravnsbæk Group lies especially on understanding structure property relations of battery materials, that is, how does the electrochemical properties and the battery performance correlate with the nano- and atomic-scale structure of the functional components. To elucidate this they utilize a range of X-ray and neutron based techniques, e.g. X-ray scattering, to probe the structural changes as they occur inside the operating battery during charge and discharge.

Recent publications

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Guo, J., Stroe, D. I., Adelhelm, P. & Ravnsbæk, D. (2025). Pulse Current Charging for Lithium-Ion Batteries and Beyond. 1. Abstract from 248th ECS Meeting 2025.

Guo, J., Stroe, D. I., Adelhelm, P. & Bomholdt Ravnsbæk, D. (2025). Battery Aging Mechanisms Under Real-World Driving Conditions. Paper presented at Swiss Battery Days 2025, Zurich, Switzerland.

Grube, E., Olesen, C. H., Ravnsbæk, D. B. & Jensen, T. R. (2016). Barium borohydride chlorides: synthesis, crystal structures and thermal properties. Dalton Transactions, 45(19), 8291-8299. https://doi.org/10.1039/c6dt00772d

Gradišek, A., Bomholdt Ravnsbæk, D., Vrtnik, S., Kocjan, A., Lužnik, J., Apih, T., Jensen, T. R., Skripov, A. V. & Dolinšek, J. (2013). NMR Study of Molecular Dynamics in Complex Metal Borohydride LiZn₂(BH₄)₅. The Journal of Physical Chemistry Part C, 117(41), 21139-21147. https://doi.org/10.1021/jp407620r

Gao, C., Jiang, Z., Qi, S., Wang, P., Jensen, L. R., Johansen, M., Christensen, C. K., Zhang, Y., Ravnsbæk, D. B. & Yue, Y. (2022). Metal-Organic Framework Glass Anode with an Exceptional Cycling-Induced Capacity Enhancement for Lithium-Ion Batteries. Advanced Materials, 34(10), Article 2110048. https://doi.org/10.1002/adma.202110048

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Revised 08.12.2025