Poon , Stefan Seritan , Baron Peters. A design equation for low dosage additives that accelerate nucleation. Faraday Discussions , , Condensation of droplets on nanopillared hydrophobic substrates. Soft Matter , 10 8 , Spherical seed mediated vapor condensation of Lennard-Jones fluid: A density functional theory approach. The Journal of Chemical Physics , 5 , Cooperative effect in nucleation: Nanosized seed particles jointly nucleate vapor-liquid transitions.
Density functional theory of vapor to liquid heterogeneous nucleation: Lennard—Jones fluid on solid substrate. Molecular Physics , 7 , Bowles , Peter H. Heterogeneous nucleation in the low-barrier regime. Nucleation pathways on complex networks. Alloys on the Nanoscale. Crystallization on prestructured seeds. Nucleation mechanism for vapor-to-liquid transition from substrates with nanoscale pores opened at one end.
The Journal of Chemical Physics , 10 , Physical basis for constrained lattice density functional theory. The Journal of Chemical Physics , 12 , Grain refinement and partitioning of impurities in the grain boundaries of a colloidal polycrystal.
Soft Matter , 8 23 , Jungblut , C. Heterogeneous crystallization on tiny clusters. EPL Europhysics Letters , 96 5 , How nanoscale seed particles affect vapor-liquid nucleation. The Journal of Chemical Physics , 18 , On the coupling between slow diffusion transport and barrier crossing in nucleation.
The Journal of Chemical Physics , 4 , Sun , X. Zhang , K. Carbon nanotube seeded silicon crystal growth. Journal of Applied Physics , 1 , Seed- and wall-induced heterogeneous nucleation in charged colloidal model systems under microgravity. Optimal modularity for nucleation in a network-organized Ising model. Heterogeneous condensation of the Lennard-Jones vapor onto a nanoscale seed particle. Nucleation in scale-free networks. Berryman , Tanja Schilling.
Sampling rare events in nonequilibrium and nonstationary systems. The Journal of Chemical Physics , 24 , LIEW , X. Nano , 05 06 , Dynamics of Biomineralization and Biodemineralization. Forward flux sampling for rare event simulations. Journal of Physics: Condensed Matter , 21 46 , Heterogeneous nucleation at a wall near a wetting transition: a Monte Carlo test of the classical theory.
Nucleation in a Potts lattice gas model of crystallization from solution. Liew , J. Zhang , X. Spiral nucleation of silicon solidified on heterogeneous surface of carbon nanocones. Applied Physics Letters , 95 18 , Liu , R. Theoretical study of hierarchical structures and heredity effect of silicon solidifying on carbon nanotube. Applied Physics Letters , 95 6 , Luque , L. Ortega , J. Barrenechea , D. Millward , O.
Beyssac , J-M. Deposition of highly crystalline graphite from moderate-temperature fluids. Geology , 37 3 , Continuity of the nucleation of bulk and surface phases.
The Journal of Chemical Physics , 16 , Moreover, the surface area that contributes to the growth of the nucleus is high in homogeneous nucleation. Heterogeneous nucleation, on the other hand, is the process of nucleation that takes place at the surface of the system. It involves nucleation sites, and it is fast as well. It is thus the most common form of nucleation. Moreover, the surface area that contributes to the growth of the nucleus is low in heterogeneous nucleation.
The following infographic presents the difference between homogeneous and heterogeneous nucleation in tabular form. Homogeneous and heterogeneous nucleation are the two major forms of nucleation. The difference between homogeneous and heterogeneous nucleation is that homogeneous nucleation occurs away from the surface of the system whereas heterogeneous nucleation occurs at the surface of the system.
Available here 2. Wedekind, Jan. Available here. With a mind rooted firmly to basic principals of chemistry and passion for ever evolving field of industrial chemistry, she is keenly interested to be a true companion for those who seek knowledge in the subject of chemistry. Your email address will not be published. Leave a Reply Cancel reply Your email address will not be published.
You do not have JavaScript enabled. Please enable JavaScript to access the full features of the site or access our non-JavaScript page.
Issue 12, From the journal: Soft Matter. Heterogeneous and homogeneous crystal nucleation in a colloidal model system of charged spheres at low metastabilities. You have access to this article. Please wait while we load your content Something went wrong.
Try again? Cited by. Download options Please wait Article type Paper.
0コメント