Interdisciplinary Nanoscience Center

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 iNANO Research Senior scientists A-D Birkedal, Henrik

Henrik Birkedal

Keywords

  • Biological materials
  • Bioinspired materials
  • Synchrotrons and neutrons
  • Crystallography
  • Synchrotron imaging
  • Multimodal (diffraction/scattering/fluorescence) X-ray tomography
  • Bone
  • Hydrogels,
  • Responsive materials
  • Self-organization
  • Coacervates

 

Head of Biological and Bioinspired Materials Group

Professor Henrik Birkedal
PhD in Physics

Learning materials chemistry from biology

We study the structure and properties of biological materials and perform syntheses of bioinspired materials using lessons learnt from biology. 

We study biological materials to understand the connection between their structure and function. Many of these hierarchical materials contain inorganic crystals organized in 3D within an organic matrix. We work primarily on bone and various model organisms for interesting materials behavior, e.g. underwater attachment. We use a wide range of experimental approaches. X-ray based scattering, diffraction and imaging methods form the center piece of our experimental platform, and we are avid users of synchrotron radiation. In this regard we further combine imaging methodologies.

We make several types of bioinspired materials using green reactions in liquid water. We employ coordination chemistry to make self-healing hydrogel materials whose properties are tuned by controlling the balance between covalent network formation and coordination chemistry crosslinking. This allows us to obtain self-healing materials with controlled properties. Bioinspired crystallization is used to make nanocrystalline phosphates, oxides and other materials. As an essential aspect of this effort, we study crystallization mechanisms, e.g. using in situ X-ray scattering and diffraction.

Aspects of our work have an applied focus and involve collaborations with academics, researchers at hospitals and/or industry partners.

Recent publications

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Azevedo, S., Costa, A. M. S., Andersen, A., Choi, I. S., Birkedal, H. & Mono, J. F. (2017). Bioinspired Ultratough Hydrogel with Fast Recovery, Self-Healing, Injectability and Cytocompatibility. Advanced Materials, 29(28), Article 1700759. https://doi.org/10.1002/adma.201700759
Arakcheeva, A., Pattison, P., Bauer-Brandl, A., Birkedal, H. & Chapius, G. (2013). Cimetidine, C10H16N6S, form C: crystal structure and modelling of polytypes using the superspace approach. Journal of Applied Crystallography, 46(1), 99-107. https://doi.org/10.1107/S0021889812048133
Andersson, M., Birkedal, H., Franklin, N. R., Ostomel, T., Boettcher, S., Palmqvist, A. E. C. & Stucky, G. D. (2005). Ag/AgCl-Loaded Ordered Mesoporous Anatase for Photocatalysis. Chemistry of Materials, 17, 1409-1415.
Andersen, A., Birkedal, H. & Krogsgaard, M. (2015). SMART POLYMER MATERIALS BASED ON BLUE MUSSEL CHEMISTRY. Poster session presented at iNANO Autumn School 2015, Farsø, Denmark.
Andersen, A., Krogsgaard, M. & Birkedal, H. (2016). Dialing in the Ratio of Covalent and Coordination Cross-links in Self-healing Hydrogels. Poster session presented at Gordon Research Conference, Le Diablerets, Switzerland.

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Revised 08.12.2025
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Lise Refstrup Linnebjerg Pedersen