Long-range electron transfer (ET) plays a key role in many biological energy conversion and synthesis processes. We show that nonlinear spectroscopy with attosecond X-ray pulses provides a real time movie of the evolving oxidation states and electron densities around atoms, and can probe these processes with high spatial and temporal resolution. This is demonstrated in a simulation study of the stimulated X-ray Raman (SXRS) signals in Re-modified azurin, which had long served as a benchmark for long-range ET in proteins. Nonlinear SXRS signals are sensitive to the local electronic structure and should offer a novel window for long-range ET.
Revised: January 14, 2015 |
Published: October 9, 2014
Citation
Zhang Y., J. Biggs, N. Govind, and S. Mukamel. 2014.Monitoring Long-Range Electron Transfer Pathways in Proteins by Stimulated Attosecond Broadband X-ray Raman Spectroscopy.The Journal of Physical Chemistry Letters 5, no. 21:3656-3661.PNNL-SA-102075.doi:10.1021/jz501966h