We want to understand how molecules achieve selectivity and efficiency in photo energy conversion. This goal relies on detailed knowledge about the coupled electronic-nuclear dynamics of the molecule on an ultrafast timescale.
We utilize the advantages of soft x-ray probe pulses for deciphering molecular photo energy conversion. The element- and site selective character of x-ray-matter interaction provides game-changing new views into the details of ultrafast molecular mechanisms after photoexcitation.
Understanding the basic mechanisms of molecular photo energy conversion is the foundation for designing and applying artificial light-harvesting strategies in solar-driven chemical feedstock and energy production.
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