Kirkwood–Buff (KB) integrals provide a connection between microscopic properties and thermodynamic properties of multicomponent fluids. The estimation of KB integrals using molecular simulations of finite systems requires accounting for finite size effects. In the small system method, properties of finite subvolumes with different sizes embedded in a larger volume can be used to extrapolate to macroscopic thermodynamic properties. KB integrals computed from small subvolumes scale with the inverse size of the system. This scaling was used to find KB integrals in the thermodynamic limit. To reduce numerical inaccuracies that arise from this extrapolation, alternative approaches were considered in this work. Three methods for computing KB inte...
Doctor of PhilosophyDepartment of ChemistryPaul E. SmithIn the past several decades, molecular dynam...
Using the adaptive resolution (AdResS) molecular dynamics scheme, we present a new approach to calcu...
Doctor of PhilosophyDepartment of ChemistryPaul E. SmithKirkwood Buff (KB) theory is one of the most...
Kirkwood–Buff (KB) integrals provide a connection between microscopic properties and thermodynamic p...
The modelling of thermodynamic properties of liquids from local density fluctuations is relevant to ...
The Kirkwood-Buff (KB) theory provides a rigorous framework to predict thermodynamic properties of i...
The total correlation integrals can provide useful information about the local structure of fluids, ...
The Kirkwood–Buff (KB) theory is one of the most rigorous solution theories thatconnects molecular s...
The Kirkwood–Buff (KB) theory provides an important connection between microscopic density fluctuati...
<p>The Kirkwood–Buff (KB) theory provides an important connection between microscopic density fluctu...
The Kirkwood-Buff theory is a cornerstone of the statistical mechanics of liquids and solutions. It ...
International audienceIn fluids, the compressibility and related thermodynamic properties can be obt...
The computation of Kirkwood–Buff integrals (KBIs) using molecular simulations of closed systems is c...
Kirkwood-Buff integration (KBI) is implemented into the massively-parallel molecular simulation tool...
Doctor of PhilosophyDepartment of ChemistryPaul E. SmithIn the past several decades, molecular dynam...
Using the adaptive resolution (AdResS) molecular dynamics scheme, we present a new approach to calcu...
Doctor of PhilosophyDepartment of ChemistryPaul E. SmithKirkwood Buff (KB) theory is one of the most...
Kirkwood–Buff (KB) integrals provide a connection between microscopic properties and thermodynamic p...
The modelling of thermodynamic properties of liquids from local density fluctuations is relevant to ...
The Kirkwood-Buff (KB) theory provides a rigorous framework to predict thermodynamic properties of i...
The total correlation integrals can provide useful information about the local structure of fluids, ...
The Kirkwood–Buff (KB) theory is one of the most rigorous solution theories thatconnects molecular s...
The Kirkwood–Buff (KB) theory provides an important connection between microscopic density fluctuati...
<p>The Kirkwood–Buff (KB) theory provides an important connection between microscopic density fluctu...
The Kirkwood-Buff theory is a cornerstone of the statistical mechanics of liquids and solutions. It ...
International audienceIn fluids, the compressibility and related thermodynamic properties can be obt...
The computation of Kirkwood–Buff integrals (KBIs) using molecular simulations of closed systems is c...
Kirkwood-Buff integration (KBI) is implemented into the massively-parallel molecular simulation tool...
Doctor of PhilosophyDepartment of ChemistryPaul E. SmithIn the past several decades, molecular dynam...
Using the adaptive resolution (AdResS) molecular dynamics scheme, we present a new approach to calcu...
Doctor of PhilosophyDepartment of ChemistryPaul E. SmithKirkwood Buff (KB) theory is one of the most...