2020
DOI: 10.1016/bs.arcc.2020.07.001
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Computational solvation dynamics: Implementation, application, and validation

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Cited by 3 publications
(5 citation statements)
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“…To investigate the detailed dynamics of solvent reorientation upon changing the description of the solute from the MM to the SQM level of theory, we resort to ideas from computational spectroscopy, specifically the computation of the normalized Stokes shift from non-equilibrium MD simulations. is defined as [ 57 , 58 ]: where is the time-dependent frequency of the emitted fluorescence light of the probe molecule’s chromophore. In computation, one assumes that changes in interactions between the solute and the solvent leading to are purely electrostatic in nature.…”
Section: Methodsmentioning
confidence: 99%
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“…To investigate the detailed dynamics of solvent reorientation upon changing the description of the solute from the MM to the SQM level of theory, we resort to ideas from computational spectroscopy, specifically the computation of the normalized Stokes shift from non-equilibrium MD simulations. is defined as [ 57 , 58 ]: where is the time-dependent frequency of the emitted fluorescence light of the probe molecule’s chromophore. In computation, one assumes that changes in interactions between the solute and the solvent leading to are purely electrostatic in nature.…”
Section: Methodsmentioning
confidence: 99%
“…In both cases, the solvent water has to reorient itself following a change in the charge distribution of the solute. Therefore, we adopted the computational approach to compute [ 57 , 58 ] as follows. We used starting configurations equilibrated either at (i) the MM level of theory or (ii) the MULL(solv) intermediate state, and restarted simulations with the full SQM/MM description of interactions.…”
Section: Methodsmentioning
confidence: 99%
See 1 more Smart Citation
“…To investigate the detailed dynamics of solvent reorientation upon changing the description of the solute from the MM to the SQM level of theory, we resort to ideas from computational spectroscopy, specifically the computation of the normalized Stokes shift S(t) from non-equilibrium MD simulations. S(t) is defined as [56,57]…”
Section: Dynamics Of Solvent Reorientationmentioning
confidence: 99%
“…In both cases, solvent water has to reorient itself following a change in charge distribution of the solute. We, therefore, adopted the computational approach to compute S(t) [56,57] as follows. We used starting configurations equilibrated either at (i) the MM level of theory or (ii) the MULL(solv) intermediate state, and restarted simulations with the full SQM/MM description of interactions.…”
Section: Dynamics Of Solvent Reorientationmentioning
confidence: 99%