Chemical Reaction Dynamics: Gas-Liquid
Quantum-state-resolved studies of aqueous evaporation dynamics: NO ejection from a liquid water microjet
[1]
M. . Ryazanov and D. J. Nesbitt, The Journal of Chemical Physics 150, (2019).
Low-Energy CO Scattering at the Gas–Liquid Interface: Experimental/Theoretical Evidence for a Novel Subthermal Impulsive Scattering (STIS) Channel
[1]
T. . Large and D. J. Nesbitt, The Journal of Physical Chemistry C 124, (2020).
Nonadiabatic Dynamics at the Gas–Molten Metal Interface: State-to-State Resolved Scattering of NO from Hot Gallium (600–1000 K)
[1]
A. M. Zutz, K. A. Peterson, and D. J. Nesbitt, The Journal of Physical Chemistry C 125, (2021).
State-Resolved Studies of OCS Scattering at the Gas−Liquid Interface: Tests of Landau−Teller/Rapp Theory for Rotational vs Vibrational Energy Transfer
[1]
T. A. L. Large, The Journal of Physical Chemistry C 125, (2021).
Non-equilibrium dynamics at the gas-liquid interface: State-resolved studies of NO evaporation from a benzyl-alcohol liquid microjet
[1]
M. . Ryazanov and D. J. Nesbitt, Journal of Chemical Physics 158, (2023).
Nonequilibrium Scattering/Evaporation Dynamics at the Gas-Liquid Interface: Wetted Wheels, Self-Assembled Monolayers, and Liquid Microjets
[1]
D. J. Nesbitt, A. . Zolot, J. . Roscioli, and M. . Ryazanov, Accounts of Chemical Research 56, (2023).
Quantum-State-Resolved Scattering of OCS at the Gas-Liquid Interface: Hyperthermal versus Thermal Vibrational Equilibration Dynamics in Polyatomics
[1]
T. A. L. Large and D. J. Nesbitt, The Journal of Physical Chemistry C 127, (2023).