Inverse Temperature Dependence of Charge Carrier Hopping in Quantum Dot Solids

Overview

Journal ACS Nano

Publisher American Chemical Society

Specialty Biotechnology

Date 2018 Jun 22

PMID 29927579

Citations 9

Authors

Rachel H Gilmore

Samuel W Winslow

Elizabeth M Y Lee

Matthew Nickol Ashner

Kevin G Yager

Adam P Willard

William A Tisdale

Affiliations

Soon will be listed here.

Abstract

In semiconductors, increasing mobility with decreasing temperature is a signature of charge carrier transport through delocalized bands. Here, we show that this behavior can also occur in nanocrystal solids due to temperature-dependent structural transformations. Using a combination of broadband infrared transient absorption spectroscopy and numerical modeling, we investigate the temperature-dependent charge transport properties of well-ordered PbS quantum dot (QD) solids. Contrary to expectations, we observe that the QD-to-QD charge tunneling rate increases with decreasing temperature, while simultaneously exhibiting thermally activated nearest-neighbor hopping behavior. Using synchrotron grazing-incidence small-angle X-ray scattering, we show that this trend is driven by a temperature-dependent reduction in nearest-neighbor separation that is quantitatively consistent with the measured tunneling rate.

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