Interdisciplinary Nanoscience Center

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 iNANO Research Senior scientists O-Z Weidner, Tobias

Tobias Weidner

Keywords

  • Surface spectroscopy
  • Femtosecond Spectroscopy
  • Protein Structure
  • Biomimetic Design
  • Surface Modification
  • Membrane Proteins
  • Ultrafast Molecular Motion
  • Interfacial Water

Head of SurfLab

Associate Professor Tobias Weidner
PhD in Physics

Surfaces - It's where the action is

Interfaces play a deciding role in many aspects of modern chemistry and material science – catalysis, adhesion, sensing, nucleation are all processes driven by interfaces.

We use methods based on static and time-resolved sum frequency generation to probe the orientation, structure and dynamics of molecules at interfaces. Near-edge X-ray absorption fine structure (NEXAFS) spectroscopy and microscopy are used as complementary tools to probe binding chemistry, surface distribution and molecular structure.

An important part of our research are protein structures at interfaces. Specific proteins can act as Nature’s engineers of both hard and soft tissue. Proteins can ‘sculpture’ biogenic minerals and shape cell membranes. The control interfacial proteins exert over biological surfaces has relevance for disciplines as diverse as cell biology, bio-sensor research, biomimetics and material science. We ask how proteins fold and move at surfaces and how energy flows through protein interfaces.

For technical applications we use chemical modification of surfaces to prevent biofouling and scaling and to reduce friction. The approaches we use are inspired by our studies of the surface chemistry of animals. Can we fabricate self-cleaning surfaces like plants? Stick to walls like a spider? Glue like a frog tongue?

The goal of our research is to understand how molecules operate at surfaces and how we can control interfacial processes at the molecular level.

Recent publications

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Varol, H. S., Sanchez, M. A., Lu, H., Baio, J. E., Malm, C., Encinas, N., Mermet-Guyennet, M. R. B., Martzel, N., Bonn, D., Bonn, M., Weidner, T., Backus, E. H. G. & Parekh, S. H. (2015). Multiscale Effects of Interfacial Polymer Confinement in Silica Nanocomposites. Macromolecules, 48(21), 7929-7937. https://doi.org/10.1021/acs.macromol.5b01111
Lv, L. P., Wu, Z. S., Chen, L., Lu, H., Zheng, Y. R., Weidner, T., Feng, X., Landfester, K. & Crespy, D. (2015). Precursor-controlled and template-free synthesis of nitrogen-doped carbon nanoparticles for supercapacitors. RSC Advances, 5(62), 50063-50069. https://doi.org/10.1039/c5ra06697b
Schach, D. K., Rock, W., Franz, J., Bonn, M., Parekh, S. H. & Weidner, T. (2015). Reversible Activation of a Cell-Penetrating Peptide in a Membrane Environment. Journal of the American Chemical Society, 137(38), 12199-12202. https://doi.org/10.1021/jacs.5b06720
Baio, J. E., Schach, D. K., Fuchs, A. V., Schmüser, L., Billecke, N., Bubeck, C., Landfester, K., Bonn, M., Bruns, M., Weiss, C. K. & Weidner, T. (2015). Reversible activation of pH-sensitive cell penetrating peptides attached to gold surfaces. Chemical Communications, 51(2), 273-275. https://doi.org/10.1039/c4cc07278b
Baio, J. E., Zane, A., Jaeger, V., Roehrich, A. M., Lutz, H., Pfaendtner, J., Drobny, G. P. & Weidner, T. (2014). Diatom Mimics: Directing the Formation of Biosilica Nanoparticles by Controlled Folding of Lysine-Leucine Peptides. Journal of the American Chemical Society, 136(43), 15134-15137. https://doi.org/10.1021/ja5078238

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Revised 08.12.2025
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Lise Refstrup Linnebjerg Pedersen