posted on 2012-10-03, 00:00authored byJeffrey
D. Rinehart, Amanda L. Weaver, Daniel R. Gamelin
Chemical reductants of sub-conduction-band potentials
are demonstrated to induce large photoluminescence enhancement in
colloidal ZnSe-based nanocrystals. The photoluminescence quantum yield
of colloidal Mn2+-doped ZnSe nanocrystals has been improved
from 14% to 80% simply by addition of an outer-sphere reductant. Up
to 48-fold redox brightening is observed for nanocrystals with lower
starting quantum yields. These increases are quickly reversed upon
exposure to air and are temporary even under anaerobic conditions.
This redox brightening process offers a new and systematic approach
to understanding redox-active surface “trap states”
and their contributions to the physical properties of colloidal semiconductor
nanocrystals.