Interdisciplinary Nanoscience Center

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 iNANO Research Senior scientists E-J Iversen, Bo Brummerstedt

Bo Brummerstedt Iversen

Keywords

  • Materials Crystallography
  • Energy Materials
  • Synchrotron Radiation
  • Neutron Scattering
  • Supercritical Fluids

Head of the research group for Sustainable Materials Chemistry

Professor Bo Brummerstedt Iversen
PhD in inorganic chemistry, dr. scient. et techn.

Understanding material properties

Iversen's research group focuses on exploiting the tremendous power of structural studies to obtain a proper understanding of material properties. This involves materials synthesis, advanced property characterization as well as first principles computations.

The research interests of the Iversen group revolve around topics in materials chemistry and materials crystallography with emphasis on application of synchrotron and neutron scattering methods. They include synthesis, characterization and application of energy materials, chemical bonding, electron density analysis, nanoparticles, supercritical fluids and hydrothermal liquefaction (bio-oil).

Read more about his research group here.

Recent publications

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Zhao, K., Blichfeld, A. B., Chen, H., Song, Q., Zhang, T., Zhu, C., Ren, D., Hanus, R., Qiu, P., Iversen, B. B., Xu, F., Snyder, G. J., Shi, X. & Chen, L. (2017). Enhanced Thermoelectric Performance through Tuning Bonding Energy in Cu2Se1-xSx Liquid-like Materials. Chemistry of Materials, 29(15), 6367-6377. https://doi.org/10.1021/acs.chemmater.7b01687
Zeuthen, C. B., Iversen, B. B. & Thorup, P. S. (2017). Examining lead vacancies in lead chalcogenides. Abstract from 2017ICT - 36TH International Conference on Thermoelectrics, Pasadena, California, United States.
Zeuthen, C. B., Thorup, P. S. & Iversen, B. B. (2017). Examining lead vacancies in lead chalcogenides and their effect on thermoelectric performance. Poster session presented at Danscatt 2017, Odense, Denmark.
Mirhosseini, M., Rezania, A., Blichfeld, A. B., Iversen, B. B. & Rosendahl, L. A. (2017). Experimental Investigation of Zinc Antimonide Thin Film Thermoelectric Element over Wide Range of Operating Conditions. Physica Status Solidi. A: Applications and Materials Science, 214(11), 1-7. Article 1700301. https://doi.org/10.1002/pssa.201700301
Zhao, K., Blichfeld, A. B., Eikeland, E., Qiu, P., Ren, D., Iversen, B. B., Shi, X. & Chen, L. (2017). Extremely low thermal conductivity and high thermoelectric performance in liquid-like Cu2Se1-xSx polymorphic materials. Journal of Materials Chemistry A, 5(34), 18148-18156. https://doi.org/10.1039/c7ta05788a

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Revised 08.12.2025
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Lise Refstrup Linnebjerg Pedersen