Journal
JOURNAL OF PHYSICAL CHEMISTRY B
Volume 107, Issue 24, Pages 5670-5674Publisher
AMER CHEMICAL SOC
DOI: 10.1021/jp027392b
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The electronic spectrum of CdS colloidal quantum dots (QDs) with a radius of 1.0-2.3 nm is studied by low-temperature photoluminescence excitation spectroscopy. CdS QDs are found to exhibit a resonant Stokes shift of similar to20-70 meV, which is similar to4 times larger than similarly sized CdSe QDs. This effect can be reproduced by an effective-mass theoretical calculation, which reveals that the hole ground state (or highest occupied molecular orbital, HOMO) in CdS QDs is a P state and the ground-state exciton is an optically passive state. Compared to CdSe, in CdS, the smaller spin-orbit splitting causes the orbital-symmetry-forbidden dark exciton in a QD and its larger resonant Stokes shift. The band-edge photoluminescence in CdS QDs exhibits a lifetime of similar to200 ns at 10 K, which is consistent with the dark exciton mechanism.
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