- Excess-entropy scaling of dynamics for a confined fluid of dumbbell-shaped particles Ravi Chopra,1,* Thomas M. Truskett,2,
- Layering and Position-Dependent Diffusive Dynamics of Confined Fluids Jeetain Mittal,1,* Thomas M. Truskett,2,
- MOLECULAR PHYSICS, 1999, VOL. 97, NO. 10, 1073 1083 MOLECULAR PHYSICS LECTURE
- Calculation of surface tension via area sampling Jeffrey R. Erringtona
- Residual multiparticle entropy does not generally change sign near freezing
- Excess entropy scaling of dynamic quantities for fluids of dumbbell-shaped particles
- Anomalous structure and dynamics of the Gaussian-core fluid William P. Krekelberg,1,* Tanuj Kumar,1
- Vincent K. Shen Physical and Chemical Properties Division,
- New intermolecular potential models for benzene and cyclohexane Jeffrey R. Errington and Athanassios Z. Panagiotopoulosa)
- Computation of interfacial properties via grand canonical transition matrix Monte Carlo simulation
- Using available volume to predict fluid diffusivity in random media Jeetain Mittal,1,
- Prewetting Boundary Tensions from Monte Carlo Simulation Jeffrey R. Errington* and David W. Wilbert
- Surface tension and vaporliquid phase coexistence of the square-well fluid
- Fluid Phase Equilibria 236 (2005) 5865 Determination of Henry's law constants through transition matrix
- Calculation of interfacial properties via free-energy-based molecular simulation: The influence of system size
- Composition and concentration anomalies for structure and dynamics of Gaussian-core mixtures
- Tuning Density Profiles and Mobility of Inhomogeneous Fluids Gaurav Goel,1
- Confinement, entropy, and single-particle dynamics of equilibrium hard-sphere mixtures
- Coarse-Grained Strategy for Modeling Protein Stability in Concentrated Solutions. III: Directional Protein Interactions
- Relationship between thermodynamics and dynamics of supercooled Jeetain Mittala
- Thermodynamics Predicts How Confinement Modifies the Dynamics of the Equilibrium Hard-Sphere Fluid
- Nucleation and cavitation of spherical, cylindrical, and slablike droplets and bubbles in small systems
- Coarse-Grained Strategy for Modeling Protein Stability in Concentrated Solutions. II: Phase Behavior
- Determination of surface tension in binary mixtures using transition-matrix Monte Carlo
- Direct evaluation of multicomponent phase equilibria using flat-histogram methods
- Determination of fluid-phase behavior using transition-matrix Monte Carlo: Binary Lennard-Jones mixtures
- Solidliquid phase coexistence of the Lennard-Jones system through phase-switch Monte Carlo simulation
- Phase equilibria of the modified Buckingham exponential-6 potential from Hamiltonian scaling grand canonical Monte Carlo
- Z .Fluid Phase Equilibria 150151 1998 3340 Monte Carlo simulation of high-pressure phase equilibria in aqueous
- Direct calculation of liquidvapor phase equilibria from transition matrix Monte Carlo simulation
- Quantification of order in the Lennard-Jones system Jeffrey R. Erringtona)
- Evaluating surface tension using grand-canonical transition-matrix Monte Carlo simulation and finite-size scaling
- J.Stat.Mech.(2009)P04006 ournal of Statistical Mechanics
- Does confining the hard-sphere fluid between hard walls change its average properties?
- Excess-entropy-based anomalies for a waterlike fluid Jeffrey R. Erringtona
- THE JOURNAL OF CHEMICAL PHYSICS 134, 081101 (2011) Communication: Generalizing Rosenfeld's excess-entropy scaling
- Fluid phase behavior of a model colloid-polymer mixture: Influence of polymer size and interaction strength
- A computational study of hydration, solution structure, and dynamics in dilute carbohydrate solutions
- Generalized Rosenfeld scalings for tracer diffusivities in not-so-simple fluids: Mixtures and soft particles
