Add to ORKGABSTRACT: We consider lattice dynamics methods for calculation of the free energy of clathrate hydrate phases, specifically the cubic structure I (sI), cubic structure II (sII), and hexagonal structure H (sH) phases, in the absence of guest molecules; water molecules are modeled with the TIP4P potential. We examine in particular the effects of finite size and proton disorder on the calculated free energies and consider these in the context of the free-energy differences between the phases. We find that at 300 K, the finite-size, proton-disorder, and quantum effects between phases are, respectively, on the order of 0.4, 0.03, and 0.1 kJ/ mol. Details of the calculations are provided, with emphasis on efficiencies developed to handle various ...
We systematically investigate the manifestations of the condensed-phase environment of the structure...
We performed molecular dynamics simulations of the ammonia and methanol-based clathrate hydrates wit...
The structure H (sH) clathrate hydrates of neo-hexane with argon, krypton, and methane help gases ar...
We consider lattice dynamics methods for calculation of the free energy of clathrate hydrate phases,...
The flexibility of the water lattice in clathrate hydrates and guest-guest interactions has been sho...
Clathrate hydrates provide one possible means of hydrogen storage and like many ice phases are proto...
Current applications of statistical thermodynamic theories for clathrate hydrates do not incorporate...
The theory developed in our earlier papers is extended to predict dynamical and thermodynamic proper...
Computational studies are presented examining the degree of proton disorder in argon and molecular h...
Molecular dynamics simulations are used to compare microscopic structures and guest dynamics to macr...
In this work, we present temperature dependence of lattice parameter and normalised lattice paramete...
Clathrate hydrates are nonstoichiometric crystalline inclusion compounds in which a water host latti...
9 pags., 6 figs., 3 tabs. -- Published as part of The Journal of Physical Chemistry virtual special ...
The current theoretical understanding of thermodynamics of clathrate hydrates is based on the van de...
The hydrates of hydrogen chloride are ionic crystals that contain hydronium $\rm(H\sb3O\sp+).$ The h...
We systematically investigate the manifestations of the condensed-phase environment of the structure...
We performed molecular dynamics simulations of the ammonia and methanol-based clathrate hydrates wit...
The structure H (sH) clathrate hydrates of neo-hexane with argon, krypton, and methane help gases ar...
We consider lattice dynamics methods for calculation of the free energy of clathrate hydrate phases,...
The flexibility of the water lattice in clathrate hydrates and guest-guest interactions has been sho...
Clathrate hydrates provide one possible means of hydrogen storage and like many ice phases are proto...
Current applications of statistical thermodynamic theories for clathrate hydrates do not incorporate...
The theory developed in our earlier papers is extended to predict dynamical and thermodynamic proper...
Computational studies are presented examining the degree of proton disorder in argon and molecular h...
Molecular dynamics simulations are used to compare microscopic structures and guest dynamics to macr...
In this work, we present temperature dependence of lattice parameter and normalised lattice paramete...
Clathrate hydrates are nonstoichiometric crystalline inclusion compounds in which a water host latti...
9 pags., 6 figs., 3 tabs. -- Published as part of The Journal of Physical Chemistry virtual special ...
The current theoretical understanding of thermodynamics of clathrate hydrates is based on the van de...
The hydrates of hydrogen chloride are ionic crystals that contain hydronium $\rm(H\sb3O\sp+).$ The h...
We systematically investigate the manifestations of the condensed-phase environment of the structure...
We performed molecular dynamics simulations of the ammonia and methanol-based clathrate hydrates wit...
The structure H (sH) clathrate hydrates of neo-hexane with argon, krypton, and methane help gases ar...