Abstract
A characteristic property of colloidal semiconductor nanocrystal quantum dots (QDs) is their emission intermittency. Although a unifying theory of QD photoprocesses remains elusive, the importance of charged states is clear. We now report a new approach to directly study the role of surface charge on QD emission by adding metal ions to individual, core-only QDs immobilized in aqueous solution in an agarose gel. The CdTe QDs show very stable emission in the absence of metal ions but a dramatic and reversible increase in blinking due to the presence of trivalent metal ions. Our results support a charge-separation model, in which the major blinking pathway is the surface trapping of electrons; transiently bound metal ions close to the QD surface enhance this process.
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CITATION STYLE
Quinn, S. D., Rafferty, A., Dick, E., Morten, M. J., Kettles, F. J., Knox, C., … Magennis, S. W. (2016). Surface Charge Control of Quantum Dot Blinking. Journal of Physical Chemistry C, 120(34), 19487–19491. https://doi.org/10.1021/acs.jpcc.6b07779
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