The self-diffusion coefficient of pure liquids, a fundamental transport property, is involved in a wide range of applications. Many methods have been employed to study the self-diffusion coefficient, with the most popular being semiempirical models. The quantitative structure–property relationship (QSPR) has been widely used to predict various physicochemical properties of substances, but the appropriate molecular descriptors must be selected first. In this study, the charge density distribution area of molecules at a specific interval (Sσi) and cavity volume (VCOSMO) was determined based on the conductor-like screening model for the segment activity coefficient (COSMO-SAC). Using these molecular descriptors, a backpropagation artificial ne...
We present a detailed overview of classical molecular simulation studies examining the self-diffusio...
The coefficient of self-diffusion in three-dimensional classical liquid is computed approximately fr...
A new model for correlating self-diffusion coefficients is proposed here. It is based on the entropy...
The self-diffusion coefficient of pure liquids, a fundamental transport property, is involved in a w...
The study concerning nano-scale systems is considered to highly contribute to the developments in th...
This paper deals with the development of an Artificial Neural Network methodology for the prediction...
The purpose of this work is to evaluate the potential of modeling the self-diffusion coefficient (SD...
This paper was published ASAP on April 12, 2011. Equation 1 was updated. The revised paper was repos...
Mutual diffusion coefficients can be successfully predicted with models based on the Darken equation...
The ability to predict transport properties of fluids, such as the self-diffusion coefficient and vi...
Self-diffusion coefficients give insight into the mobility of molecular species and serve as benchma...
We performed a molecular dynamics simulation to calculate the self-diffusion coefficients of 1-Butyl...
The details of molecular motion of low-molecular-weight polar and nonpolar organic liquids in nanopo...
International audienceA new model for correlating self-diffusion coefficients is proposed here. It i...
Mutual diffusion coefficients can be successfully predicted with models based on the Darken equation...
We present a detailed overview of classical molecular simulation studies examining the self-diffusio...
The coefficient of self-diffusion in three-dimensional classical liquid is computed approximately fr...
A new model for correlating self-diffusion coefficients is proposed here. It is based on the entropy...
The self-diffusion coefficient of pure liquids, a fundamental transport property, is involved in a w...
The study concerning nano-scale systems is considered to highly contribute to the developments in th...
This paper deals with the development of an Artificial Neural Network methodology for the prediction...
The purpose of this work is to evaluate the potential of modeling the self-diffusion coefficient (SD...
This paper was published ASAP on April 12, 2011. Equation 1 was updated. The revised paper was repos...
Mutual diffusion coefficients can be successfully predicted with models based on the Darken equation...
The ability to predict transport properties of fluids, such as the self-diffusion coefficient and vi...
Self-diffusion coefficients give insight into the mobility of molecular species and serve as benchma...
We performed a molecular dynamics simulation to calculate the self-diffusion coefficients of 1-Butyl...
The details of molecular motion of low-molecular-weight polar and nonpolar organic liquids in nanopo...
International audienceA new model for correlating self-diffusion coefficients is proposed here. It i...
Mutual diffusion coefficients can be successfully predicted with models based on the Darken equation...
We present a detailed overview of classical molecular simulation studies examining the self-diffusio...
The coefficient of self-diffusion in three-dimensional classical liquid is computed approximately fr...
A new model for correlating self-diffusion coefficients is proposed here. It is based on the entropy...