Exciton-phonon coupling and disorder in the excited states of CdSe colloidal quantum dots

10 November 2006

journal article
Published by AIP Publishing in The Journal of Chemical Physics

Vol. 125 (18) , 184709
https://doi.org/10.1063/1.2363190

Abstract

We study the origin of the spectral line shape in colloidal CdSenanocrystalquantum dots. The three-pulse photon echo peak shift(3PEPS) data reveal a temperature-independent fast decay, obscuring the quantification of the homogeneous linewidth. The optical gap and Stokes shift are found to have an anomalous behavior with temperature, which is size, capping group, and surrounding polymer matrix independent. Using these results and combining them with simulations, we discuss the role of exciton-phonon coupling, static inhomogeneity, exciton fine structure, and exciton state disorder in the linewidth of the nanocrystal. In particular, our analysis shows that the disorder due to surface imperfections and finite temperature effects, as well as the relaxation within the fine structure, can have significant impact on the steady-state absorptionspectrum,3PEPS data, and dephasing processes.

Keywords

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