24. 1. 2014. Seminar: Nikola Prodanović


Friday, 24 January 2014 at 2 PM
IPB Library, seminar organized by Scientific Computing Laboratory

Nikola Prodanović
Scientific Computing Laboratory, Institute of Physics Belgrade

Electronic transport in colloidal quantum dot supercrystals

Colloidal quantum dot supercrystals are novel nanostructured materials which appear very promising in potential optoelectronic applications and for fundamental study of electronic transport properties in condensed matter physics. Recent fabrication of high quality supercrystals with relatively strong inter-site electronic coupling and high size monodispersivity enabled high carrier mobilities slightly increasing with temperature decreasing. Due to such temperature behaviour it is believed that such transport is of metallic kind, so called coherent band-like transport.

We developed an accurate model accounting for electron-phonon interaction in colloidal quantum dot supercrystals that allowed us to identify the nature of charge carriers and the electrical transport regime. We find that in experimentally relevant CdSe nanocrystal solids the electron-phonon interaction is sufficiently strong that small polarons localized to single dots are formed. Charge-carrier transport occurs by small polaron hopping between the dots with mobility that decreases with increasing the temperature. While such a temperature dependence of mobility is usually considered as a proof of band transport, we show that the same type of dependence occurs in the system where transport occurs by small polaron hopping.