Add to ORKGA generalized nucleation potential is constructed for binary systems. The potential consists of the reversible work of cluster formation plus additional terms arising from various kinetic effects. We show that the major nucleation flux passes through the saddle point (termed the genuine saddle point) of this generalized nucleation potential. The generalized nucleation potential reduces to the kinetic potential of a unary system when one component vanishes. The genuine saddle point concept provides a convenient way to identify systems and conditions for which the ridge crossing phenomenon occurs. Our theory agrees approximately with exact numerical results
A thermodynamic model of the formation free energy of a droplet, based on a real equation of state, ...
An effective quasi-one-component model for homogeneous vapour-liquid nucleation of non-ideal binary ...
Nucleation is the onset of a first-order phase transition by which a metastable phase transforms int...
Transient binary nucleation is more complex than unary because of the bidimensionality of the cluste...
Explicit analytical expressions are obtained for the rate of nucleation over different paths in a bi...
Using a new approach, Stauffer\u27s expression for the rate of steady state binary nucleation and Tr...
We numerically solve the complete set of coupled differential equations describing transient binary ...
To establish the accuracy and applicability of analytical expressions for the steady state rate of b...
A quantitative study of nucleation in vapor mixtures of ethanol and water near 273°C is presented. F...
To investigate transient binary nucleation, both qualitatively and quantitatively, we numerically so...
Summarization: Two different methods to calculate the steady-state nucleation rate in heteromolecula...
We examine the region of validity of Langer's picture of homogeneous nucleation. Our approach is bas...
Summarization: An analytical method to obtain the steady-state nucleation flux of binary liquid drop...
The foundation for any discussion of first order phase transitions is classical nucleation theory (C...
Gibbs free energy of ij-cluster formation ΔGij is obtained via the relation nij=Ne-ΔGij /kBT, where ...
A thermodynamic model of the formation free energy of a droplet, based on a real equation of state, ...
An effective quasi-one-component model for homogeneous vapour-liquid nucleation of non-ideal binary ...
Nucleation is the onset of a first-order phase transition by which a metastable phase transforms int...
Transient binary nucleation is more complex than unary because of the bidimensionality of the cluste...
Explicit analytical expressions are obtained for the rate of nucleation over different paths in a bi...
Using a new approach, Stauffer\u27s expression for the rate of steady state binary nucleation and Tr...
We numerically solve the complete set of coupled differential equations describing transient binary ...
To establish the accuracy and applicability of analytical expressions for the steady state rate of b...
A quantitative study of nucleation in vapor mixtures of ethanol and water near 273°C is presented. F...
To investigate transient binary nucleation, both qualitatively and quantitatively, we numerically so...
Summarization: Two different methods to calculate the steady-state nucleation rate in heteromolecula...
We examine the region of validity of Langer's picture of homogeneous nucleation. Our approach is bas...
Summarization: An analytical method to obtain the steady-state nucleation flux of binary liquid drop...
The foundation for any discussion of first order phase transitions is classical nucleation theory (C...
Gibbs free energy of ij-cluster formation ΔGij is obtained via the relation nij=Ne-ΔGij /kBT, where ...
A thermodynamic model of the formation free energy of a droplet, based on a real equation of state, ...
An effective quasi-one-component model for homogeneous vapour-liquid nucleation of non-ideal binary ...
Nucleation is the onset of a first-order phase transition by which a metastable phase transforms int...