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Our objective is to apply and develop computational tools to understand chemical reactions in organic and biomolecules. On the application side our focus is on light-induced reactions, in particular in chromophore-protein complexes and solvated molecules. For this purpose we employ the QM/MM methodology which allows an accurate and efficient treatment of large systems. On the development side we have an interest in computational tools to support our research on photochemical/photobiological systems. We have contributions to several quantum chemistry packages with emphasis on multiconfigurational wavefunction methods.
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Recent Publications
- Merocyanines form bacteriorhodopsins with strongly bathochromic absorption maxima
- Light-Oxygen-Voltage (LOV)-sensing Domains: Activation Mechanism and Optogenetic Stimulation
- Short-Range Effects in the Special Pair of Photosystem II Reaction Centers: The Nonconservative Nature of Circular Dichroism
- The OpenMolcas Web: A Community-Driven Approach to Advancing Computational Chemistry
- Transient 2D IR Spectroscopy and Multiscale Simulations Reveal Vibrational Couplings in the Cyanobacteriochrome Slr1393-g3
- Optical Activity and Spin Polarization: The Surface Effect