Ivo Nezbeda
Ivo Nezbeda
academy of sciences, prague
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P-V-T behaviour of hard body fluids. Theory and experiment
T Boublík, I Nezbeda
Collection of Czechoslovak chemical communications 51 (11), 2301-2432, 1986
The Lennard-Jones fluid: An accurate analytic and theoretically-based equation of state
J Kolafa, I Nezbeda
Fluid Phase Equilibria 100, 1-34, 1994
Vapor-liquid equilibria from the triple point up to the critical point for the new generation of TIP4P-like models: TIP4P/Ew, TIP4P/2005, and TIP4P/ice
C Vega, JLF Abascal, I Nezbeda
The Journal of chemical physics 125 (3), 2006
Monte Carlo simulations on primitive models of water and methanol
J Kolafa, I Nezbeda
Molecular Physics 61 (1), 161-175, 1987
Equation of state for hard dumbbells
T Boublik, I Nezbeda
Chemical Physics Letters 46 (2), 315-316, 1977
Primitive model of water: II. Theoretical results for the structure and thermodynamic properties
I Nezbeda, J Kolafa, YV Kalyuzhnyi
Molecular physics 68 (1), 143-160, 1989
A new version of the insertion particle method for determining the chemical potential by Monte Carlo simulation
I Nezbeda, J Kolafa
Molecular Simulation 5 (6), 391-403, 1991
Statistical thermodynamics of simple liquids and their mixtures
T Boublík, I Nezbeda, K Hlavatý
(No Title), 1980
A simple model for associated fluids
WR Smith, I Nezbeda
The Journal of chemical physics 81 (8), 3694-3699, 1984
Recent progress in molecular simulation of aqueous electrolytes: Force fields, chemical potentials and solubility
I Nezbeda, F Moučka, WR Smith
Molecular Physics 114 (11), 1665-1690, 2016
An examination of the five-site potential (TIP5P) for water
M Lısal, J Kolafa, I Nezbeda
The Journal of chemical physics 117 (19), 8892-8897, 2002
Molecular simulation of aqueous electrolyte solubility. 2. Osmotic ensemble Monte Carlo methodology for free energy and solubility calculations and application to NaCl
F Moucka, M Lísal, J Skvor, J Jirsák, I Nezbeda, WR Smith
The Journal of Physical Chemistry B 115 (24), 7849-7861, 2011
Accurate vapour–liquid equilibrium calculations for complex systems using the reaction Gibbs ensemble Monte Carlo simulation method
M Lísal, WR Smith, I Nezbeda
Fluid Phase Equilibria 181 (1-2), 127-146, 2001
Virial expansion and an improved equation of state for the hard convex molecule system
I Nezbeda
Chemical Physics Letters 41 (1), 55-58, 1976
Hard-sphere radial distribution function again
A Trokhymchuk, I Nezbeda, J Jirsák, D Henderson
The Journal of chemical physics 123 (2), 2005
Simple short-ranged models of water and their application. A review
I Nezbeda
Journal of molecular liquids 73, 317-336, 1997
Molecular force fields for aqueous electrolytes: SPC/E-compatible charged LJ sphere models and their limitations
F Moučka, I Nezbeda, WR Smith
The Journal of chemical physics 138 (15), 2013
Detection and characterization of structural changes in the hard-disk fluid under freezing and melting conditions
F Moučka, I Nezbeda
Physical review letters 94 (4), 040601, 2005
A family of primitive models of water: three-, four and five-site models
I Nezbeda, J Slovak
Molecular Physics 90 (3), 353-372, 1997
Statistical thermodynamics of interaction-site molecules: the theory of hard dumb-bells
I Nezbeda
Molecular Physics 33 (5), 1287-1299, 1977
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