A study of step kinetics by kinetic Monte Carlo simulation

Leung, Suet-ying., 梁雪瑩.

January 2002

published_or_final_version / Physics / Master / Master of Philosophy

Crystal growth - Computer simulation.

On-line particle size analysis in the fines loop of a continuous crystallizer

Rovang, Richard Dennis

January 1978

No description available.

Crystal growth -- Data processing.

Morphological kinetics of facetted crystals

Ozdemir, Metin

12 1900

No description available.

Surfaces (Physics)

Crystal growth

Effects of strain on heteroepitaxial growth dynamics

Rätsch, Christian

08 1900

No description available.

Epitaxy

Crystal growth

From fullerenes to nanocrystals and nanocrystal arrays : novel preparation and characterization methods

Vezmar, Igor

08 1900

No description available.

Fullerenes

Crystal growth

Preparation and structural studies of gold nanocrystals and their arrays

Shafigullin, Marat Nailevich

05 1900

No description available.

Nanostructure materials

Crystal growth

Isothermal growth of low molecular weight polyethylene single crystals from solution

Leung, Wing-Man.

January 1982

The linear growth rates of solution grown low molecular weight polyethylene single crystals have been investigated as a function of crystallization temperature, molecular weight and solution concentration. Sharp fractions were used covering the molecular weight range from 3100 to 11600. The crystals were characterized by studying (1) the equlibrium melting/dissolution temperature as a function of the molecular weight, (2) the lamellar thickness as a function of the crystallization temperature and (3) the fusion/dissolution behavior as a function of crystallization temperature. / The most interesting results are as follows: (a) The lamellar thickness varies continuously with crystallization temperature. This behavior has been interpreted to provide information on the important question of the location of the chain ends in the crystals. (b) For the higher molecular weight fractions the growth rate decreases monotonically with the crystallization temperature. In contrast for fractions in the molecular weight range of 3000 to 4000 the growth rate versus crystallization temperature curves show a notched appearance in which two branches can be distinguished. These branches intersect at a transition temperature where the temperature coefficient of the growth rates changes discontinuously. This behavior is interpreted to mean that the transition temperatures correspond to changes in the conformation of the molecules deposited on the growth faces. The growth rate data have been analyzed using current kinetic theories of polymer crystal growth. Basal surface free energies thus obtained are compared with the estimates from the relations between lamellar thickness and supercooling and melting/dissolution temperature and lamellar thickness. These results are discussed in relation to the molecular structure of the crystals.

Polyethylene.

Crystal growth

Kinetic study of crystal growth from supersaturated droplets

Wen, Fu-Chu

05 1900

No description available.

Crystal growth

Nucleation

Compound semiconductor compliant substrates for extension of the conventional critical thickness in mismatched overlayers and strain-modulated epitaxy

Coman, Carrie Anne Carter

12 1900

No description available.

Semiconductors

Epitaxy

Crystal growth

The effects of ionic strength and aggregation on crystal growth kinetics : an application of photon correlation spectroscopy

Knowles-Van Cappellen, Victoria Leilani

12 1900

No description available.

Crystal growth

Ions

Fluorspar