Biomedical Engineering Reference
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J. References
1. Joanny, F. J. and de Gennes, P. G., A model for contact angle hysteresis. J. Chem. Phys, 81(1)
(1984) 552-562.
2. Isrealchvilli, J., Intermolecular and Surface Forces, 2nd edn. Academic Press, San Diego, 1991.
3. Brandrup, J., et al., Polymer Handbook, 4th edn., Vol. I. John Wiley & Sons, Inc., New York,
1999.
4. Keurentjes, J. T. F., et al., Surfactant-induced wetting transitions: Role of surface hydrophobicity
and effect on oil permeability of ultrafiltration membranes. Colloids and Surfaces, 51 (1990)
189-205.
5. Shaw, D. J., Introduction to Colloid and Surface Chemistry, 2nd edn. Butterworths, London,
1970.
6. Wang, J.-H., et al., Dynamic contact angles and contact angle hysteresis of plasma polymers.
Langmuir, 10 (1994) 3887-3897.
7. Raphaƫl, E. and de Gennes, P. G., Dynamics of wetting with nonideal surfaces. The single defect
problem. J. Chem. Phys., 90(12) (1989) 7577-7584.
8. Lam, C. N. C., et al., Study of the advancing and receding contact angles: liquid sorption as a
cause of contact angle hysteresis. Advances in Coll. and Interface Sci., 96 (2002) 169-191.
9. Drelich, J., Miller, J. D. and Good, R. J., The effect of drop (bubble) size on advancing and
receding conract angle for heterogeneous and rough surfaces as observed with sessile-drop and
captive bubbles techniques. J. Colloid Interface Sci., 179 (1995) 37-50.
10. Schwartz, L. W. and Garoff, S., Contact angle hysteresis on heterogeneous surfaces. Langmuir,
1 (1985) 279-230.
11. Cox, R. G., The dynamics of the spreading of liquids on a solid surface. Part 2. Surfactants. J.
Fluid Mech., 168 (1986) 194-220.
12. Hoffmann, R. L., A study of advancing interface. I. Inetrface shape in liquid-gas systems. J.
Colloid Interface Sci., 50(2) (1975) 228-241.
13. Voinov, O. V., Hydrodynamics of wetting. Izv. Akad. Nauk SSSR, Mekh. Zhidk. i Gaza, 76(5)
(1976).
14. Tanner, L. H., The preading of silicone oil drops on horizontal surfaces. J. Phys. D: Appl. Phys.,
12 (1979) 1473-1484.
15. Blake, T. D., et al., Contact angle relaxation during droplet spreading: comparison between
molecular kinetic theory and molecular dynamics. Langmuir, 13 (1997) 2164-2166.
16. Hayes, R. A. and Ralston, J., The molecular-kinetic theory of wetting. Langmuir, 10 (1994)
340-342.
17. Lin, S. H., Ziv, A. R. and Eyring, H., Quantun statistical mechanical theory of diffusion and
reaction on solid subsrates. Proc. Natl. Acad. Sci. USA, 78(7) (1981) 3989-3992.
18. Wayner Jr, P. C., The effect of interfacial mass transport on flow in thin liquid films. Colloids and
Surfaces, 52 (1991) 71-84.
19. Shanahan, M. E. R., Spreading of water: condensation effects. Langmuir, 17(26) (2001) 8229-
8235.
20. Shanahan, M. E. R., Condensation transport in dynamic wetting. Langmuir, 17(13) (2001) 3997-
4002.
21. De Ruijter, M. J., et al., Contact angle relaxation during the spreading of partially wetting drops.
Langmuir, 13 (1997) 7293-7298.
22. Brochard-Wyart, F. and de Gennes, P. G., Dynamics of partial wetting. Advances in Colloid and
Interface Science, 39 (1992) 1-11.
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