This technique is used to examine energy transfer in natural and artificial photosynthetic systems and in single-walled carbon nanotubes. Read More.
This technique is used to explore electronic-vibrational dynamics, non-radiative relaxation pathways, and energy transfer dynamics of many different systems. Read More.
This technique is used to determine fluorescence lifetimes to study energy transfer and quenching mechanisms. Read More.
This technique is used to correlate excited states with each other and to determine their kinetics. Read More.
These technique is used to monitor energy transfer processes on slow timescales. Read More.
This technique is used to investigate the light-matter interactions at the single photon level. Read More.