Oxidation of a Molecule by the Biexcitonic State of a CdS Quantum Dot

Oxidation of a Molecule by the Biexcitonic State of a CdS Quantum Dot

This paper describes spectroscopic evidence for the photoinduced transfer of a hole from the biexcitonic state of a CdS quantum dot (QD) to a phenothiazine (PTZ) molecular acceptor, covalently linked to the QD through phenyldithiocarbamate (PTC), with power-dependent yields of 8–21%. Visible and nea...

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Veröffentlicht in:Journal of physical chemistry. C 2019-03, Vol.123 (10), p.5923-5930
Hauptverfasser: Lian, Shichen, Christensen, Joseph A, Kodaimati, Mohamad S, Rogers, Cameron R, Wasielewski, Michael R, Weiss, Emily A
Format: Artikel
Sprache:eng
Schlagworte:
bio-inspired
catalysis (heterogeneous)
catalysis (homogeneous)
charge transport
hydrogen and fuel cells
INORGANIC, ORGANIC, PHYSICAL, AND ANALYTICAL CHEMISTRY
magnetism and spin physics
materials and chemistry by design
mesostructured materials
optics
phonons
photosynthesis (natural and artificial)
solar (fuels)
solar (photovoltaic)
synthesis (novel materials)
synthesis (scalable processing)
synthesis (self-assembly)
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Zusammenfassung:This paper describes spectroscopic evidence for the photoinduced transfer of a hole from the biexcitonic state of a CdS quantum dot (QD) to a phenothiazine (PTZ) molecular acceptor, covalently linked to the QD through phenyldithiocarbamate (PTC), with power-dependent yields of 8–21%. Visible and near-infrared transient absorption spectroscopy (TA) data suggest that the mechanisms of hole extraction include direct hole transfer from the QD’s valence band to PTZ in 2.4 ± 0.2 ps, or trapping of holes at the QD surface in ∼1 ps, followed by sequential hole transfer to PTZ. Both of these mechanisms potentially out-compete Auger recombination of biexcitonic states, which occurs within these QDs in 20 ± 1 ps. These results suggest that the PTC linkage will be useful for extracting multiple holes from a QD photosensitizer or solo photocatalyst to drive multistep oxidation reactions.
ISSN:1932-7447
1932-7455
DOI:10.1021/acs.jpcc.9b00210