Presentation is loading. Please wait.

Presentation is loading. Please wait.

Clathrates, Clusters and Crystals P.M. Rodger Department of Chemsitry.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "Clathrates, Clusters and Crystals P.M. Rodger Department of Chemsitry."— Presentation transcript:

1 Clathrates, Clusters and Crystals P.M. Rodger Department of Chemsitry

2 Crystal Modifiers Growth & Morphology Control ¯Biomineralisation: complete control of morphology, polymorph & size (e.g. using polysaccharides) Inhibition of crystallisation ¯Suppression of nucleation ¯Reduction in growth rate ¯Polycrystalline suspension

3 Molecular Sculpturing Form and kinetics depends on ¯Subtle changes in molecular composition ¯Subtle changes in already dilute concentrations Need to understand mechanism in molecular detail to know how to formulate coarse- graining hierarchy

4 Waxes Polycrystalline soft solids ¯Lamellar structure found in n- alkanes persists in waxes ¯Growth rates controlled by (110) and (010) surfaces ¯Growth is defect-driven Low dosage inhibitors ¯Typically comb-like polymers ¯Activity relates to surface adsorption ¯ wide range of effects Ä– many small crystals in suspension Ä– suppression of initial formation Ä–soft, easily removed deposits Top view of the (001) surface; cleavage planes for other surfaces are shown by the arrows (100) (010) (110)

5 Experimental result R. Kern and R. Dassonville J.Cryst. Growth 116 (1992) 191 Crystallized C 26 and C 36 from heptane solution with varying concentrations of polyalkylacrylate High degree of polymerization acted as growth promoter Low polymerization (m<9) acted as growth inhibitors Found solid solution for C 26 and phase separation for C 36. Notable reduction in crystal size Additive Concentration (ppm) 0 1 4 5 100

6 Wax Inhibitors: Strategy Simulate in series of steps of increasing complexity: ¯wax growth in vacuum ¯wax growth with inhibitor ¯wax growth with inhibitor and oil Identify key factors that determine activity Develop coarse-grained simulations to encompass these factors

7 Wax Inhibitors: key factors Match to surface is affected by size of polymer ¯Inhibitor targets growth surface only for octamer or larger (001) Favoured for dimer, but strained in octamer (110) Surface favoured for oligomers Subsequent growth is incommensurate with wax ¯Shear defects remove lamelar structure Four alkane layers grown on an inhibited (110) surface

8 Model for inhibited wax crystal growth Wax Inhibitor Top View Side View

9 MC for crystal growth Gilmer and Bennema (1972) ¯transition probabilities for addition P + and subtraction P -  P + = exp(  /kT) P - = exp[(2-i)2  /kT] ; i=0,1,2,3,4  2  is the bond strength between 2 growth units  material-related frequency; i is number of neighbours

10 MC for growth inhibition van Enckevort and van der Berg (1998) ¯arrays of immobile impurities ¯no addition or subtraction at impurity sites ¯No “bonds” to adjacent growth units Modification for anisotropic crystal  P - = exp[((1-i x )2  x +(1-i y )2  y )/kT] ; i x, i y = 0,1,2   x and  y are “bond” strengths in x and y directions ¯Parameterise from MD of solvated islands

Download ppt "Clathrates, Clusters and Crystals P.M. Rodger Department of Chemsitry."

Similar presentations

Water Molecules on Carbon Surfaces George Darling Surface Science Research Centre Department of Chemistry The University of Liverpool.

Water Molecules on Carbon Surfaces George Darling Surface Science Research Centre Department of Chemistry The University of Liverpool.
2/15/2002, Friday Strengthening Mechanisms. Strengthening Philosophy Plastic deformation is due to the motion of a large number of dislocations; Strength.

2/15/2002, Friday Strengthening Mechanisms. Strengthening Philosophy Plastic deformation is due to the motion of a large number of dislocations; Strength.
Yun Hee Jang, Mario Blanco, William A. Goddard, III MSC, Beckman Institute, Caltech Augustin J. Colussi, Michael R. Hoffmann Department of Chemistry and.

Yun Hee Jang, Mario Blanco, William A. Goddard, III MSC, Beckman Institute, Caltech Augustin J. Colussi, Michael R. Hoffmann Department of Chemistry and.
Polymerization reactions chapter 4. Fall 20111. outline Introduction Classifications Chain Polymerization (free radical initiation) Reaction Mechanism.

Polymerization reactions chapter 4. Fall outline Introduction Classifications Chain Polymerization (free radical initiation) Reaction Mechanism.
CHE 333 Class 20 Fracture continued.

CHE 333 Class 20 Fracture continued.
Multi-faceted nature of equilibrium self-association phenomena Karl F. Freed & Jacek Dudowicz James Franck Inst., U. Chicago Jack F. Douglas Polymers Div.,

Multi-faceted nature of equilibrium self-association phenomena Karl F. Freed & Jacek Dudowicz James Franck Inst., U. Chicago Jack F. Douglas Polymers Div.,
Ab initio Calculations of Interfacial Structure and Dynamics in Fuel Cell Membranes Ata Roudgar, Sudha P. Narasimachary and Michael Eikerling Department.

Ab initio Calculations of Interfacial Structure and Dynamics in Fuel Cell Membranes Ata Roudgar, Sudha P. Narasimachary and Michael Eikerling Department.
Physical chemistry of solid surfaces

Physical chemistry of solid surfaces
The Calculation of Enthalpy and Entropy Differences??? (Housekeeping Details for the Calculation of Free Energy Differences) first edition: p. 493-502.

The Calculation of Enthalpy and Entropy Differences??? (Housekeeping Details for the Calculation of Free Energy Differences) first edition: p
Deformation and Strengthening Mechanisms

Deformation and Strengthening Mechanisms
Chapter 1 The Crystal Structure of Solids Describe three classifications of solids— amorphous, polycrystalline, and single crystal. Discuss the concept.

Chapter 1 The Crystal Structure of Solids Describe three classifications of solids— amorphous, polycrystalline, and single crystal. Discuss the concept.
CHAPTER 6: DIFFUSION IN SOLIDS

CHAPTER 6: DIFFUSION IN SOLIDS
MC Results - Growth Rate  y /kT = 0.7 kJ mol -1  y /kT = 1.0 kJ mol -1.

MC Results - Growth Rate  y /kT = 0.7 kJ mol -1  y /kT = 1.0 kJ mol -1.
Crystalline Arrangement of atoms. Chapter 4 IMPERFECTIONS IN SOLIDS The atomic arrangements in a crystalline lattice is almost always not perfect. The.

Crystalline Arrangement of atoms. Chapter 4 IMPERFECTIONS IN SOLIDS The atomic arrangements in a crystalline lattice is almost always not perfect. The.
PY3090 Preparation of Materials Lecture 3 Colm Stephens School of Physics.

PY3090 Preparation of Materials Lecture 3 Colm Stephens School of Physics.
Using Chromatography to Select Effective Biomineral Growth Modifiers Tissa J. Thomas and Ryan E. Sours Department of Chemistry, Towson University, Towson,

Using Chromatography to Select Effective Biomineral Growth Modifiers Tissa J. Thomas and Ryan E. Sours Department of Chemistry, Towson University, Towson,
Dislocations and Strengthening

Dislocations and Strengthening
Polymers: Molecular Structures and Properties The properties of polymers are directly affected by their atomic and molecular structures. In this lecture,

Polymers: Molecular Structures and Properties The properties of polymers are directly affected by their atomic and molecular structures. In this lecture,
END-FUNCTIONALIZED TRIBLOCK COPOLYMERS AS A ROBUST TEMPLATE FOR ASSEMBLY OF NANOPARTICLES Rastko Sknepnek, 1 Joshua Anderson, 1 Monica Lamm, 2 Joerg Schmalian,

END-FUNCTIONALIZED TRIBLOCK COPOLYMERS AS A ROBUST TEMPLATE FOR ASSEMBLY OF NANOPARTICLES Rastko Sknepnek, 1 Joshua Anderson, 1 Monica Lamm, 2 Joerg Schmalian,
Mineral assembly Most minerals will deal with ionic bonds between cations and anions (or anionic subunits which are themselves mostly covalent but do.

Mineral assembly Most minerals will deal with ionic bonds between cations and anions (or anionic subunits which are themselves mostly covalent but do.

Similar presentations

Ads by Google