Ultrafast X-ray spectroscopy of molecules in their real environment is now achievable, thanks to a new technique developed by researchers from the University of Cambridge and the Swiss Light Source. The team was able to capture images of single molecules at unprecedented speed, allowing them to observe the dynamics of molecules at the femtosecond (10-15 second) timescale. This could have important implications for researchers looking to study the chemical reactions of molecules, or to monitor the motion of electrons within molecules.

The technique works by using X-rays to stimulate molecules and then capturing the resulting ultrafast X-ray emission. This emission is then recorded with an ultrafast imaging detector, allowing the researchers to observe the dynamics of the molecule in its real environment. This technique will enable researchers to gain unprecedented insight into the behavior of molecules on ultrafast timescales.

We’re excited to share the news that researchers from the University of Cambridge and the Swiss Light Source have developed a new ultrafast X-ray spectroscopy technique for observing the dynamics of molecules in their real environment. This technique can capture images of single molecules at unprecedented speed, allowing researchers to study chemical reactions and the motion of electrons within molecules. With this breakthrough, researchers can gain unprecedented

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source: Phys.org