Silicon
nanocrystals (SiNCs) with bright bandgap photoluminescence
(PL) are of current interest for a range of potential applications,
from solar windows to biomedical contrast agents. Here, we use the
liquid precursor cyclohexasilane (Si6H12) for
the plasma synthesis of colloidal SiNCs with exemplary core emission.
Through size separation executed in an oxygen-shielded environment,
we achieve PL quantum yields (QYs) approaching 70% while exposing
intrinsic constraints on efficient core emission from smaller SiNCs.
Time-resolved PL spectra of these fractions in response to femtosecond
pulsed excitation reveal a zero-phonon radiative channel that anticorrelates
with QY, which we model using advanced computational methods applied
to a 2 nm SiNC. Our results offer additional insight into the photophysical
interplay of the nanocrystal surface, quasi-direct recombination,
and efficient SiNC core PL.
The adsorption kinetics of CO2 was experimentally characterized in ultra-high vacuum (UHV). Unexpectedly, high desorption temperatures (640 K, 170 kJ mol-1) were seen. Density functional theory (DFT) calculations suggest the stabilization mechanism: bicarbonate formation in the defected perovskite film due to CO2 and H2O coadsorption.
This study compares two competing pathways of photoexcitations in gas-phase metal−organic complexes: first, a sequence of phonon-assisted electronic transitions leading to dissipation of the energy of photoexcitations and, second, a sequence of light-driven electronic transitions leading to photolysis. Phonon-assisted charge carrier dynamics is investigated by combination of the density matrix formalism and on-the-fly nonadiabatic couplings. Light-driven fragmentation is modeled by a time-dependent excited-state molecular-dynamics (TDESMD) algorithm based on Rabi theory and principles similar to the trajectory surface hopping approximation. Numerical results indicate that, under the medium intensity of the laser field, lightdriven electronic transitions are more probable than phonon-assisted ones. The formation of multiple products is observed in TDESMD trajectories. Simulated mass spectra are extracted from TDESMD simulations and compared to experimental photoionization time-of-flight (PI-TOF) mass spectra. It is found that several features in the experimental mass spectra are reproduced by the simulations.
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