Adelman, Steven - Purdue University - Department of Chemistry

个人简介

B.S., 1967, Illinois Institute of Technology; Ph.D. 1972, Harvard University; Postdoctoral Fellow, Massachusetts Institute of Technology, 1972-74; Postdoctoral Fellow, University of Chicago, 1974-75

研究领域

His research accomplishments include: •Creating the mathematical and physical foundation for studying chemical reaction dynamics on solid surfaces and in liquid solutions. •Developing the theory of ultrashort timescale irreversible processes. •Developing the molecular-level theory of friction on molecules. •Making basic contributions to liquid phase vibrational energy relaxation theory.

近期论文

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Fokker-Planck Equations for Simple Non-Markovian Systems, S. A. Adelman, J. Chem. Phys., 64, 124-130, (1976). Generalized Langevin Equation Approach for Atom/Solid Surface Scattering: General Formulation for Classical Scattering off Harmonic Solids, S.A. Adelman and J.D. Doll, J. Chem. Phys., 64, 2375, (1976). Theory of Non-Primative Electrolyte Solutions: Generalized Electrostatic Model for the Equilibrium Properties of Ionic-Polar Mixtures, S. A. Adelman and J.H. Chen, J. Chem. Phys., 70, 4291-4309, (1979). Chemical Reaction Dynamics in Liquid Solution, S. A. Adelman, Adv. Chem. Phys., 53, 61, (1983). Generalized Langevin Theory for Many-Body Problems in Chemical Dynamics: The Method of Partial Clamping and Formulation of the Solute Equations of Motion in Generalized Coordinates, S. A. Adelman, J. Chem. Phys., 81, 2776, (1984). Theory of Liquid Phase Activated Barrier Crossing: The Instantaneous Potential and the Parabolic Model, S. A. Adelman and R. Muralidhar, J. Chem. Phys., 95, 2752, (1991). Molecular Theory of Liquid Phase Vibrational Energy Relaxation, S. A. Adelman, R. Ravi, R. Muralidhar, and R. H. Stote, Adv. Chem. Phys., 84, 73, (1993). Irreversible Motion on Macroscopic and Molecular Timescales and Chemical Dynamics in Liquids, S.A. Adelman and R. Ravi, Adv. Chem. Phys. 115, 181, (2000). Short Timescale Dynamics and the Correlation between Liquid and Gas Phase Vibrational Energy Relaxation Rates, S. A. Adelman, J. Chem. Phys., 114, 5231, (2010). Short Time Scale Dynamics and a Second Correlation between Liquid and Gas Phase Chemical Rates: Diffusion Processes in Noble Gas Fluids, S.A. Adelman and Pelin Cox, J. Phys. Chem. B 114, 15610, (2010).