A great deal of experimental evidence suggests that a wide spectrum of phase transitions occur in a multistage manner via the appearance and subsequent transformation of intermediate metastable states. Such multistage mechanisms cannot be explained within the realm of the classical nucleation framework. Hence, there is a strong need to develop new theoretical tools to explain the occurrence and nature of these ubiquitous intermediate phases. Here we outline a unified and self-consistent theoretical framework to describe both classical and nonclassical nucleation. Our framework provides a detailed explanation of the whole multistage nucleation pathway showing in particular that the pathway involves a single energy barrier and it passes throu...
Nucleation of clusters from the gas phase is a widely encountered phenomenon, yet rather little is u...
In this contribution, we review the recent literature on an alternative crystallization pathway invo...
It is widely accepted that many phase transitions do not follow nucleation pathways as envisaged by ...
A great deal of experimental evidence suggests that a wide spectrum of phase transitions occur in a ...
Nucleation is the onset of a first-order phase transition by which a metastable phase transforms int...
Recent advances in classical density functional theory are combined with stochastic process theory a...
The molecules and atoms that comprise matter have the tendency to join in different aggregation stat...
Colloidal systems offer ideal conditions to study the nucleation process, both from an experimental ...
Classical nucleation theory teaches the idea that molecular clusters form and grow in solution and t...
Nucleation is a non-equilibrium pro cess through which a system evolves from an old thermo dynamic p...
Nucleation is the first step in the conversion of a metastable phase to a more stable one. It involv...
We study a three-species analogue of the Potts Lattice Gas (PLG) model of nucleation from solution i...
Classical nucleation theory (CNT) is based on the notion of critical nuclei serving as transition st...
Mechanisms of nucleation have been debated for more than a century, despite successes of classical n...
The foundation for any discussion of first order phase transitions is classical nucleation theory (C...
Nucleation of clusters from the gas phase is a widely encountered phenomenon, yet rather little is u...
In this contribution, we review the recent literature on an alternative crystallization pathway invo...
It is widely accepted that many phase transitions do not follow nucleation pathways as envisaged by ...
A great deal of experimental evidence suggests that a wide spectrum of phase transitions occur in a ...
Nucleation is the onset of a first-order phase transition by which a metastable phase transforms int...
Recent advances in classical density functional theory are combined with stochastic process theory a...
The molecules and atoms that comprise matter have the tendency to join in different aggregation stat...
Colloidal systems offer ideal conditions to study the nucleation process, both from an experimental ...
Classical nucleation theory teaches the idea that molecular clusters form and grow in solution and t...
Nucleation is a non-equilibrium pro cess through which a system evolves from an old thermo dynamic p...
Nucleation is the first step in the conversion of a metastable phase to a more stable one. It involv...
We study a three-species analogue of the Potts Lattice Gas (PLG) model of nucleation from solution i...
Classical nucleation theory (CNT) is based on the notion of critical nuclei serving as transition st...
Mechanisms of nucleation have been debated for more than a century, despite successes of classical n...
The foundation for any discussion of first order phase transitions is classical nucleation theory (C...
Nucleation of clusters from the gas phase is a widely encountered phenomenon, yet rather little is u...
In this contribution, we review the recent literature on an alternative crystallization pathway invo...
It is widely accepted that many phase transitions do not follow nucleation pathways as envisaged by ...