- Thermal Recovery of Colloidal Quantum Dot Ensembles Following Photoinduced Dimming.
Thermal Recovery of Colloidal Quantum Dot Ensembles Following Photoinduced Dimming.
The journal of physical chemistry letters (2015-08-13)
Russell A Jensen, Igor Coropceanu, Yue Chen, Moungi G Bawendi
PMID26267184
ABSTRACT
Colloidal CdSe quantum dot (QD) core ensembles were photodimmed and allowed to recover in the dark using ambient thermal energy at a range of temperatures. Nonlinear thermal recovery is well described by a stretched exponential function, and further analysis yields an underlying probability distribution of rate constants. Casting the rate constants as a collection of first-order activated processes provides an activation barrier probability distribution with significant density at room-temperature thermal energy that peaks at 200 meV before decaying to zero. This treatment for the recovery transition intuitively describes the distributed kinetics observed and complements commonly proposed blinking mechanisms.
MATERIALS