Derek Chan's Website
Publications (1 - 25)


Home

Research

Publications

   recent

   126-175

   101-125

   76-100

   51-75

   26-50

   1-25

Teaching

Admin

General

Downloads

Email

No.
Details 1 .. 25

25 D.Y.C. Chan, D.J. Mitchell, B.W. Ninham, B.A. Pailthorpe
Reply to Comments on the Theory of Dipolar Fluids (Ramshaw)
J. Chem. Phys. 70, 1578 (1979).

24 D.Y.C. Chan, D.J. Mitchell, B.W. Ninham, B.A. Pailthorpe
Towards A Microscopic Theory of Hydrophobic Solutions
J. Chem. Soc. Faraday II 74, 2050-2062 (1978).pdf

23 D.Y.C. Chan, D.J. Mitchell, B.W. Ninham, B.A. Pailthorpe
On the Theory of Dipolar Fluids and Ion-Dipole Mixtures
J. Chem. Phys. 69, 691-696 (1978).

22 D.Y.C. Chan, D.J. Mitchell, B.W. Ninham, B.A. Pailthorpe
Solvent Mediated Interactions - Solute Size Effects and Predictions of Mean Field Theory
Chem. Phys. Lett. 56, 533-536 (1978).pdf

21 D.Y.C. Chan, D.J. Mitchell, B.W. Ninham, B.A. Pailthorpe
Short-range Interactions Mediated by a Solvent with Surface Adhesion
Molec. Phys. 35, 1669-1679 (1978).

20 C.J. Barnes, D.Y.C. Chan, D.H. Everett, D.E. Yates
Order/Disorder Transitions in Concentrated Electrocratic Dispersion
J. Chem. Soc. Faraday II 74, 136-148 (1978).

19 N.F. Owens, P. Richmond, D. Gregory, J. Mingins, D.Y.C. Chan
Contact Angles of Pure Liquids and Surfactants on Low Energy Surfaces
"Wetting, Spreading and Adhesion", J.F. Padday (ed) Academic Press, p. 127-146, (1978).

18 D.Y.C. Chan, P. Richmond
Van der Waals Forces for Mica and Quartz: Calculations Using Complete Dielectric Data
Proc. Roy. Soc. Lond. A353, 163-176 (1977). pdf

17 D.Y.C. Chan, T.W. Healy, L.R. White
Electrical Double Layer Interactions Under Regulation by Surface Ionisation Equilibria - Dissimilar Amphoteric Surfaces
J. Chem. Soc. Faraday I 76, 2844-2865 (1977). pdf

16 D.Y.C. Chan, T.W. Healy, L.R. White, D.E. Yates
Nernstian and Non-Nernstian Potential Difference at Aqueous Interfaces
J. Electroanal. Interface Electrochem. 80, 57-66 (1977).

15 D.Y.C. Chan, B. Davies, P. Richmond
Conformational Properties of a Polymer Confined between Two Adsorbing Surfaces
J. Chem. Soc. Faraday II 72, 1584-1602 (1976).

14 D.Y.C. Chan, P. Richmond
Static and dynamic Interactions with Spatially Dispersive Media
J. Phys. C (Solid State Physics) 9, 163-168 (1976). pdf

13 D.Y.C. Chan, P. Richmond
Free Energies Across Inhomogeneous Spatially Dispersive Media III. Metals and Retardation Effects
J. Phys. C (Solid State Physics) 9, 153-162 (1976). pdf

12 D.Y.C. Chan, P. Richmond
Free Energies of Inhomogeneous Spatially Dispersive Media II. Thin Films
J. Phys. C (Solid State Physics) 8, 3221-3231 (1975). pdf

11 D.Y.C. Chan, P. Richmond
A general theory of Free Energies of Inhomogeneous Spatially DispersiveMedia. I
J. Physics. C. (Solid State Physics) 8, 2509-2521 (1975). pdf

10 D.Y.C. Chan, P. Richmond
Non-retarded van der Waals Interactions between Two Spatially Dispersive Media
Phys. Letts. 51A, 323-324 (1975). pdf

9 D.Y.C. Chan, P. Richmond
Calculations of Isosteric Heats of Adsorption for n-Alkanes and n-Alkanols on Graphite using Lifshitz Theory
Disc. Faraday Soc. 59, 46-48 (1975).

8 D.Y.C. Chan, D.J. Mitchell, L.R. White
Phase Transitions in Adsorbed Polymer Systems
Disc. Faraday Soc. 59, 181-188 (1975).

7 D.Y.C. Chan, D.J. Mitchell, B.W. Ninham, L.R. White
Conformation of a Non-Interacting Polymer near a ÔStickyÕ Wall
J. Chem. Soc. Faraday II 71, 253-268 (1975).

6 D.Y.C. Chan, T.W. Healy, J.W. Perram, L.R. White
Regulation of Surface Potential at Amphoteric Surfaces During Particle-Particle Interaction
J. Chem. Soc. Faraday I 71, 1046-1057 (1975). pdf

5 D.Y.C. Chan, L.R. White
The Electrostatic Interaction between Surfaces Bearing Amphoteric Ionisable Groups Across a 1 : 1 Electrolyte
J. Theoret. Biol. 48, 253-256 (1974).

4 D.Y.C. Chan, B.W. Ninham
Phase Transition in Polymer Solutions and the Prediction of Theta Temperatures
J. Chem. Soc. Faraday II 70, 586-596 (1974).

3 D.Y.C. Chan, P. Richmond
Classical Theory of Dynamical Image Interactions
Surface Sci. 39, 437-440 (1973).

2 D.Y.C. Chan, P. Richmond
The Three-Body Interaction Energy between Optically Active Molecules
Molec. Phys. 25, 1475-1479 (1973).

1 D.Y.C. Chan, P. Richmond
The Interaction of Optically Active Molecules
Chem. Phys. Letts. 16, 287-288 (1972).pdf