Recent observations of the growth of protein crystals have identified two different growth regimes. At low supersaturation, the surface of the crystal is smooth and increasing in size due to the nucleation of steps at defects and the subsequent growth of the steps. At high supersaturation, nucleation occurs at many places simultaneously, the crystal surface becomes rough, and the growth velocity increases more rapidly with increasing supersaturation than in the smooth regime. Kinetic roughening transitions are typically assumed to be due to the vanishing of the barrier for two-dimension nucleation on the surface of the crystal. We show here, by means of both analytic mean-field models and kinetic Monte Carlo simulations, that a transition b...
Physical and biochemical aspects of protein crystal nucleation can be distinguished in an appropriat...
We determine the kinetic phase diagram for nucleation and growth of crystal phases in a suspension o...
Molecular beam epitaxy has recently been applied to the growth and self assembly of nanostructures o...
Kinetic roughening is not a phase transition and, as such, it lacks a sharp definition. Therefore, t...
We examine the effect of rough surfaces on crystal nucleation by means of kinetic Monte Carlo simula...
We examine the effect of rough surfaces on crystal nucleation by means of kinetic Monte Carlo simula...
The synthesis of high quality protein crystals is essential for determining their structure. Hence t...
Kinetic roughening is not a phase transition and, as such, it lacks an exact definition. Many criter...
Nanoscale self-assembly is naturally subject to impediments at the nanoscale. The recently developed...
Crystals grow by laying down new layers of material which can either correspond in size to the heigh...
PACS. 05.70Ln { Nonequilibrium thermodynamics, irreversible processes. PACS. 75.70Kw { Domain struct...
A kinetic model has been designed that tries to capture some most important physico-chemical propert...
Both the dissolution and growth of a molecular crystalline material, urea, has been studied using dy...
Interplay between kinetic roughening and phase ordering is studied in a growth SOS model with two ki...
A superdiffusive random-walk action in the depletion zone around a growing protein crystal is consid...
Physical and biochemical aspects of protein crystal nucleation can be distinguished in an appropriat...
We determine the kinetic phase diagram for nucleation and growth of crystal phases in a suspension o...
Molecular beam epitaxy has recently been applied to the growth and self assembly of nanostructures o...
Kinetic roughening is not a phase transition and, as such, it lacks a sharp definition. Therefore, t...
We examine the effect of rough surfaces on crystal nucleation by means of kinetic Monte Carlo simula...
We examine the effect of rough surfaces on crystal nucleation by means of kinetic Monte Carlo simula...
The synthesis of high quality protein crystals is essential for determining their structure. Hence t...
Kinetic roughening is not a phase transition and, as such, it lacks an exact definition. Many criter...
Nanoscale self-assembly is naturally subject to impediments at the nanoscale. The recently developed...
Crystals grow by laying down new layers of material which can either correspond in size to the heigh...
PACS. 05.70Ln { Nonequilibrium thermodynamics, irreversible processes. PACS. 75.70Kw { Domain struct...
A kinetic model has been designed that tries to capture some most important physico-chemical propert...
Both the dissolution and growth of a molecular crystalline material, urea, has been studied using dy...
Interplay between kinetic roughening and phase ordering is studied in a growth SOS model with two ki...
A superdiffusive random-walk action in the depletion zone around a growing protein crystal is consid...
Physical and biochemical aspects of protein crystal nucleation can be distinguished in an appropriat...
We determine the kinetic phase diagram for nucleation and growth of crystal phases in a suspension o...
Molecular beam epitaxy has recently been applied to the growth and self assembly of nanostructures o...