Add to ORKGThe solvation dynamics of an excited coumarin dye molecule (C-480) enclosed within a restricted space have been studied using molecular hydrodynamic theory (MHT) and compared with the recent experimental findings. The solvation dynamics of the dye molecule within the cavity of a toroidal gamma-cyclodextrin molecule have been shown to be explained only in terms of the freezing of the solvent translational modes using MHT. The results of the theoretical calculation are in good agreement with the experimental results. The inertial components of the solvation time correlation function remain the same in both the restricted environment and in the free space. These results are interesting in the light of the simulation studies of Maroncelli and F...
For ultrafast solvation of an ion in a liquid which is in the underdamped limit of momentum relaxati...
Experimental studies of solvation dynamics in imidazolium-based ionic liquids (ILs) have revealed co...
Ultrafast chemical dynamics in a nano-confined system is very different from that in a bulk liquid. ...
A detailed study of the solvation dynamics of a charged coumarin dye molecule in gamma-cyclodextrin/...
A detailed study of the solvation dynamics of a charged coumarin dye molecule in gamma-cyclodextrin/...
A detailed study of the solvation dynamics of a charged coumarin dye molecule in γ-cyclodextrin...
We report molecular dynamics simulation results of equilibrium and dynamical characteristics pertain...
We report molecular dynamics simulation results of equilibrium and dynamical characteristics pertain...
A theoretical analysis of the three currently popular microscopic theories of solvation dynamics, na...
A theoretical analysis of the three currently popular microscopic theories of solvation dynamics, na...
A theoretical analysis of the three currently popular microscopic theories of solvation dynamics, na...
Equilibrium and dynamical characteristics pertaining to the solvation of the fluorescent probe Couma...
For ultrafast solvation of an ion in a liquid which is in the underdamped limit of momentum relaxati...
A recently developed microscopic theory of ultra-fast solvation dynamics of an ion in dipolar liquid...
The solvation time correlation function for solvation in liquid water was measured recently. The sol...
For ultrafast solvation of an ion in a liquid which is in the underdamped limit of momentum relaxati...
Experimental studies of solvation dynamics in imidazolium-based ionic liquids (ILs) have revealed co...
Ultrafast chemical dynamics in a nano-confined system is very different from that in a bulk liquid. ...
A detailed study of the solvation dynamics of a charged coumarin dye molecule in gamma-cyclodextrin/...
A detailed study of the solvation dynamics of a charged coumarin dye molecule in gamma-cyclodextrin/...
A detailed study of the solvation dynamics of a charged coumarin dye molecule in γ-cyclodextrin...
We report molecular dynamics simulation results of equilibrium and dynamical characteristics pertain...
We report molecular dynamics simulation results of equilibrium and dynamical characteristics pertain...
A theoretical analysis of the three currently popular microscopic theories of solvation dynamics, na...
A theoretical analysis of the three currently popular microscopic theories of solvation dynamics, na...
A theoretical analysis of the three currently popular microscopic theories of solvation dynamics, na...
Equilibrium and dynamical characteristics pertaining to the solvation of the fluorescent probe Couma...
For ultrafast solvation of an ion in a liquid which is in the underdamped limit of momentum relaxati...
A recently developed microscopic theory of ultra-fast solvation dynamics of an ion in dipolar liquid...
The solvation time correlation function for solvation in liquid water was measured recently. The sol...
For ultrafast solvation of an ion in a liquid which is in the underdamped limit of momentum relaxati...
Experimental studies of solvation dynamics in imidazolium-based ionic liquids (ILs) have revealed co...
Ultrafast chemical dynamics in a nano-confined system is very different from that in a bulk liquid. ...