Surface Ligands Increase Photoexcitation Relaxation Rates in CdSe Quantum Dots

Overview

Journal ACS Nano

Publisher American Chemical Society

Specialty Biotechnology

Date 2012 Jun 30

PMID 22742432

Citations 7

Authors

Svetlana Kilina

Kirill A Velizhanin

Sergei Ivanov

Oleg V Prezhdo

Sergei Tretiak

Affiliations

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Abstract

Understanding the pathways of hot exciton relaxation in photoexcited semiconductor nanocrystals, also called quantum dots (QDs), is of paramount importance in multiple energy, electronics and biological applications. An important nonradiative relaxation channel originates from the nonadiabatic (NA) coupling of electronic degrees of freedom to nuclear vibrations, which in QDs depend on the confinement effects and complicated surface chemistry. To elucidate the role of surface ligands in relaxation processes of nanocrystals, we study the dynamics of the NA exciton relaxation in Cd(33)Se(33) semiconductor quantum dots passivated by either trimethylphosphine oxide or methylamine ligands using explicit time-dependent modeling. The large extent of hybridization between electronic states of quantum dot and ligand molecules is found to strongly facilitate exciton relaxation. Our computational results for the ligand contributions to the exciton relaxation and electronic energy-loss in small clusters are further extrapolated to larger quantum dots.

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