Journal
SCIENCE
Volume 307, Issue 5709, Pages 558-563Publisher
AMER ASSOC ADVANCEMENT SCIENCE
DOI: 10.1126/science.1107291
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The intermediate structures formed through radiationless transitions are termed dark because their existence is inferred indirectly from radiative transitions. We used ultrafast electron diffraction to directly determine these transient structures on both ground-state and excited-state potential energy surfaces of several aromatic molecules. The resolution in space and time (0.01 angstrom and 1 picosecond) enables differentiation between competing nonradiative pathways of bond breaking, vibronic coupling, and spin transition. For the systems reported here, the results reveal unexpected dynamical behavior. The observed ring opening of the structure depends on molecular substituents. This, together with the parallel bifurcation into physical and chemical channels, redefines structural dynamics of the energy landscape in radiationless processes.
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