Molecules constantly absorb and release energy through vibrations — the stretching and bending of chemical bonds. Ultrafast infrared spectroscopy, including two-dimensional infrared (2D IR) spectroscopy, captures these processes on the timescale they actually occur: picoseconds to femtoseconds. Understanding molecular energy transfer and vibrational dynamics is central to fields ranging from solar energy conversion to biological catalysis.
All felds are inputs/outputs
Enter the laser excitation wavelength (nm) and Raman shift either in nanometers (nm) or wavenumbers (cm-1) in order to convert units of the Raman shift.
Learn how we apply these principles in our research on hydrogen-bond dynamics and published work in ultrafast spectroscopy.
