Biomedical Engineering Reference
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49. Rusanov, A. I., Classification of line tension. Colloids and Surfaces A: Phys. and Eng. Aspects,
156 (1999) 315-322.
50. Shanahan, M. E. R., Fine structure of perturbed wetting triple line. Colloids and Surfaces A:
Phys. and Eng. Aspects, 156 (1999) 71-77.
51. Qu, W., Yang, C. and Li, D. A., Gradient theory approach to line tension of liquid-liquid fluid
systems. Colloids and Surfaces A: Phys. and Eng. Aspects, 144 (1998) 275-285.
52. Pismen, L. M., Mesoscopic hydrodynamics of contact line motion. Colloids and Surfaces A:
Phys. and Eng. Aspects, 206 (2002) 11-30.
53. Carré, A. and Woehl P., Hydrodynamic behavior at the triple line of spreading liquids and the
divergence problem. Langmuir, 18 (2002) 3600-3603.
54. Amirfarzli, A., Keshavartz, A., Zhang, L. and Neumann, A. W., Determination of line tension
for systems near wetting. Journal of Colloids and Interface Science, 265 (2003) 152-160.
55. Voué, M., Rioboo, R., Bauthier, C., Conti, J., Charlot, M. and De Coninck, J., Dissipation and
moving contact lines on non-rigid substrates. J. of the European Ceramic Society, 23 (2003)
2769-2775.
56. Amirfarzli, A. and Neumann, A. W., Status of the three-phase line tension. Advances in Colloids
and Interface Science, 110 (2004) 121-141.
57. Tadmor, R., Line energy and the relation between advancing, receding and Young contact angle.
Langmuir, 20 (2004) 7659-7664.
58. Ward, C. A. and Sefiane, K., Adsorption at the solid-liquid interface as the source of contact
angle dependence on the curvature of the three-phase line. Advances in Colloid and Interface
Science, 161 (2010) 171-180.
59. Sefiane, K., Skilling, J. and MacGillivray, J., Contact line motion and dynamic wetting of
nanofluid solutions. Advances in Colloid and Interface Science, 138 (2008) 101-120.
60. Bonn, D., Wetting transitions. Current Opinion in Colloids & Interface Science, 6 (2001) 22-27.
61. Humfeld, K. D. and Garoff, S., Geometry-driven wetting transition. Langmuir, 20 (2004) 9223-
9226.
62. Sefiane, K., Shanahan, M. E. R. and Antoni, M., Wetting and phase change: opportunities and
challenges. Current Opinion in Colloid & Interface Science, 16(4) (2011) 317-325.
63. Long, J., Hyder, A. M., Huang, R. Y. M. and Chen, P., Thermodynamic modelling of contact
angles on rough heterogeneous surfaces. Advances in Colloids and Interface Science, 118 (2005)
173-190.
64. Long, J. and Chen, P., On the role of energy barriers in determining contact angle hysteresis.
Advances in Colloids and Interface Science, 127 (2006) 55-66.
65. Chibowsky, E., Surface free energy of a solid from contact angle hysteresis. Advances in Colloids
and Interface Science, 103 (2003) 149-172.
66. Chibowsky, E., On some relations between advancing, receding and Young's contact angles.
Advances in Colloids and Interface Science, 133 (2007) 51-59.
67. Extrand, C. W. and Kumagai, Y., Contact angles and hysteresis on soft surfaces. Journal of Col-
loid and Interface Science, 184 (1996) 191-200.
68. Extrand, C. W. and Kumagai, Y., An experimental study of contact angle hysteresis. Journal of
Colloid and Interface Science, 191 (1997) 378-383.
69. Extrand, C. W., Contact angles and hysteresis on surfaces with chemically heterogeneous islands.
Langmuir, 19 (2003) 3793-3796.
70. Extrand, C. W., A thermodynamic model for wetting free energies from contact angles. Lang-
muir, 19 (2003) 646-649.
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