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419 results on '"Bradforth, Stephen E."'

101. Electron Photodetachment from Aqueous Anions. II. Ionic Strength Effect on Geminate Recombination Dynamics and Quantum Yield for Hydrated Electron

Author

Sauer, Myran C., Shkrob, Ilya A., Lian, Rui, Crowell, Robert A., Bartels, David M., and Bradforth, Stephen E.

Subjects
Chemical Physics (physics.chem-ph), Physics - Chemical Physics, FOS: Physical sciences, Optics (physics.optics), Physics - Optics
Abstract

In concentrated solutions of NaClO4 and Na2SO4, the quantum yield for free electron generated by detachment from photoexcited anions (such as I-, OH-, ClO^4-, and [SO3]^2-) linearly decreases by 6-12% per 1 M ionic strength. In 9 M sodium perchlorate solution, this quantum yield decreases by roughly an order of magnitude. Ultrafast kinetic studies of 200 nm photon induced electron detachment from Br-, HO- and [SO3]^2- suggest that the prompt yield of thermalized electron does not change in these solutions; rather, the ionic strength effect originates in more efficient recombination of geminate pairs. Within the framework of the recently proposed mean force potential (MFP) model of charge separation dynamics in such photosystems, the observed changes are interpreted as an increase in the short-range attractive potential between the geminate partners. Association of sodium cation(s) with the electron and the parent anion is suggested as the most likely cause for the observed modification of the MFP. Electron thermalization kinetics suggest that the cation associated with the parent anion (by ion pairing and/or ionic atmosphere interaction) is passed to the detached electron in the course of the photoreaction. The precise atomic-level mechanism for the ionic strength effect is presently unclear; any further advance is likely to require the development of an adequate quantum molecular dynamics model., 40 pages, 10 figures + supplement 2 pages, 9 figures; will be submitted, in a modified form, to J. Phys. Chem A

Published
2004

107. Symmetry breaking charge transfer processes of zinc dipyrrin complexes

Author

Trinh, Cong, Kirlikovali, Kent, Das, Saptaparna, Bradforth, Stephen E., Ener, Maraia E., Gray, Harry B., Djurovich, Peter I., Thompson, Mark E., Trinh, Cong, Kirlikovali, Kent, Das, Saptaparna, Bradforth, Stephen E., Ener, Maraia E., Gray, Harry B., Djurovich, Peter I., and Thompson, Mark E.

Abstract

Photoinduced charge transfer (CT) via symmetry breaking (SB) processes plays a crucial role in photosynthetic reaction center of biol. systems. In such systems, which contain two or more identical and sym. chromophores, CT process from one to another chromophore occurs upon photo-excitation, thus breaking the symmetry. It is of great interest to apply SBCT processes in org. photovoltaics (OPV) and related systems. For application to OPVs, it is desirable for compds. that undergo SB processes to have absorption in the visible spectrum. The most well-documented compds. for SB phenomenon, such as bianthryl derivs., do not absorb visible light. Herein we present study on Zinc Dipyrrin complexes, which contain two identical dipyrrin ligands and absorb strongly at 450-550 nm. These compds. undergo efficient SBCT processes in polar solvents; the photoinduced CT state from the singlet excited state occurs in 4-7 ps, and then recombines back to the triplet state in 1-4 ns.

Published
2013

118. Comparing molecular photofragmentation dynamics in the gas and liquid phases

Author

Harris, Stephanie J., primary, Murdock, Daniel, additional, Zhang, Yuyuan, additional, Oliver, Thomas A. A., additional, Grubb, Michael P., additional, Orr-Ewing, Andrew J., additional, Greetham, Gregory M., additional, Clark, Ian P., additional, Towrie, Michael, additional, Bradforth, Stephen E., additional, and Ashfold, Michael N. R., additional

Published
2013
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127. Vibronic Structure in Room Temperature Photoluminescence of the Halide Perovskite Cs3Bi2Br9

Author

Bass, Kelsey K., Estergreen, Laura, Savory, Christopher N., Buckeridge, John, Scanlon, David O., Djurovich, Peter I., Bradforth, Stephen E., Thompson, Mark E., and Melot, Brent C.

Abstract

We report a study on the optical properties of the layered polymorph of vacancy-ordered triple perovskite Cs3Bi2Br9. The electronic structure, determined from density functional theory calculations, shows the top of the valence band and bottom of the conduction band minima are, unusually, dominated by Bi s and p states, respectively. This produces a sharp exciton peak in the absorption spectra with a binding energy that was approximated to be 940 meV, which is substantially stronger than values found in other halide perovskites and, instead, more closely reflects values seen in alkali halide crystals. This large binding energy is indicative of a strongly localized character and results in a highly structured emission at room temperature as the exciton couples to vibrations in the lattice.

Published
2017
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