Diffusive and Unimolecular Nonradiative Decay of Excited States in Doped Carbon Nanotubes

Klaus H. Eckstein, Pascal Kunkel, Markus Voelckel, Friedrich Schöppler, Abasi Abudulimu, Larry Lüer, Tobias Hertel

Published 2021-03-29Version 1

Doping can profoundly affect the electronic- and optical-structure of semiconductors. Here we address the effect of surplus charges on non-radiative (NR) exciton and trion decay in doped semiconducting single-wall carbon nanotubes. The dependence of exciton photoluminescence quantum yields and exciton decay on the doping level, with its characteristically stretched-exponential kinetics, is attributed to diffusion-limited NR decay at charged impurity sites. By contrast, trion decay is unimolecular with a rate constant of $2.0\,\rm ps^{-1}$. Our experiments thus show that charged impurities not only trap trions and scavenge mobile excitons but that they also facilitate efficient NR energy dissipation for both.