Scenes from the JRM Lab

Scenes from the JRM Lab

Scenes from the JRM Lab

Scenes from the JRM Lab

Scenes from the JRM Lab

     

Ultrafast Molecular Photoswitch

An international collaboration led by researchers from the Kansas State University Physics Department and the Oxford University Chemistry Department has studied ultrafast processes in the molecular photoswitch quadricyclane, published recently in Nature Chemistry.


Quadricyclane and norbornadiene are two isomers, that is molecules with the same chemical formula but different geometry, which interconvert upon absorption of ultraviolet light. Quadricyclane is the higher-energy isomer and can be used to store solar energy, which is then released by a catalytic process as heat. So-called molecular solar thermal (MOST) devices exploit such isomer pairs to, for instance, warm houses by absorbing energy from the sun during the day and then releasing it at night.

The experiment, led by Kansas State Physics professor Daniel Rolles and his graduate student Kurtis Borne, used ultrashort light pulses produced by the FERMI free-electron laser facility in Trieste, Italy, to track the conversion between the two isomers on a timescale of femtoseconds. The experimental results were interpreted with the help of state-of-the-art computer simulations done in Oxford. The combined study discovered faster than previously identified pathways leading to the conversion, which may help designing new ways of controlling the outcome and efficiency of this important class of photoreactions.

See also our press release via the K-State Physics Department.

     

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This Week at JRM

Week of 17 November 2024

 
Mon1:30 pm Nuts & Bolts
News & status (Hybrid, CW119)
Tue 
Wed1:30 pm AMO Seminar
Paresh Modak, KSU (CW144)
Thu 
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What's New?

Daniel Rolles, professor in atomic, molecular, and optical physics, has been selected as a 2024 Fellow of the American Physical Society for pioneering experiments on imaging ultrafast molecular reactions with XUV and X-ray free-electron lasers, and for advancing our understanding of the interaction of ultra-intense X-ray pulses with atoms and molecules.

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