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Impact of exciton fine structure on the energy transfer in magic-sized (CdSe)13 clusters : Impact of exciton fine structure on the energy transfer in magic-sized (CdSe)<sub>13</sub> clusters

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Authors

Bieniek, Jan; Baek, Woonhyuk; Lorenz, Severin; Muckel, Franziska; Fainblat, Rachel; Hyeon, Taeg Hwan; Bacher, Gerd

Issue Date
2024-12
Publisher
Tsinghua Univ Press
Citation
Nano Research, Vol.17 No.12, pp.10669-10676
Abstract
Magic-sized (CdSe)13 clusters (MSCs) represent a material class at the boundary between molecules and quantum dots that exhibit a pronounced and well separated excitonic fine structure. The characteristic photoluminescence is composed of exciton bandgap emission and a spectrally broad mid-gap emission related to surface defects. Here, we report on a thermally activated energy transfer from fine-structure split exciton states to surface states by using temperature dependent photoluminescence excitation spectroscopy. We demonstrate that the broad mid-gap emission can be suppressed by a targeted Mn-doping of the MSC leading to the characteristic orange luminescence of the 4T1 -> 6A1 Mn2+ transition. The energy transfer to the Mn2+ states is found to be significantly different than the transfer to the surface defect states, as the activation of the dopant emission requires a spin-conserving charge carrier transfer that only dark excitons can provide.
ISSN
1998-0124
URI
https://hdl.handle.net/10371/213552
DOI
https://doi.org/10.1007/s12274-024-7108-1
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  • College of Engineering
  • School of Chemical and Biological Engineering
Research Area Chemistry, Materials Science

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