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Peter J. Rossky
Researcher at Rice University
Publications - 285
Citations - 22396
Peter J. Rossky is an academic researcher from Rice University. The author has contributed to research in topics: Solvation & Excited state. The author has an hindex of 74, co-authored 280 publications receiving 21183 citations. Previous affiliations of Peter J. Rossky include Fu Jen Catholic University & University of Texas at Austin.
Papers
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Extracting rates of vibrational energy relaxation from centroid molecular dynamics
TL;DR: In this article, the ability of centroid molecular dynamics (CMD) to determine quantum correlation functions pertinent to the bath force correlation function, appearing in the rate expression for vibrational energy relaxation, was investigated.
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The interplay of dielectric and mechanical relaxation in solvation dynamics
TL;DR: In this article, the authors explore the possible coupling between dielectric solvation, the response of the solvent to a change in charge distribution of the solute, and mechanical solvation.
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Modeling Amphiphilic Solutes in a Jagla Solvent
TL;DR: In this paper, the authors consider two models of an amphiphilic solute: (i) a "dimer" model consisting of one hydrophobic hard sphere linked to a Jagla particle with a permanent bond, and (ii) a'monomer' model, which is a limiting case of the dimer, formed by concentrically overlapping a hard sphere and a Jagger particle.
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Resonance Raman Spectroscopy of the T1 Triplet Excited State of Oligothiophenes
Chen Wang,Maria Angelella,Samantha J. Doyle,Lauren A. Lytwak,Peter J. Rossky,Bradley J. Holliday,Michael J. Tauber +6 more
TL;DR: The potential of resonance Raman spectroscopy to unequivocally detect and characterize triplets in thiophene materials is highlighted and the vibrational spectra can serve as rigorous standards for evaluating computational methods for excited-state molecules.
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Diffusive transport of the hydrated electron : a pseudoclassical model
TL;DR: In this article, a pseudoclassical model that is used to simulate the adiabatic dynamical response of the electron is applied to halide-like ions in water for different solute-solvent potentials in order to evaluate the factors responsible for the enhanced diffusion rate of hydrated electron compared with halide ions.