Biomedical Engineering Reference
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70. Cachile, M., et al., Spontaneous spreading of surfactant solutions on hydrophilic surfaces. Col-
loids and Surfaces A: Physicochemical and Engineering Aspects, 159(1) (1999) 47-56.
71. Cachile, M. and Cazabat, A. M., Spontaneous spreading of surfactant solutions on hydrophilic
surfaces: CnEm in ethylene and diethylene glycol. Langmuir, 15(4) (1999) 1515-1521.
72. Matar, O. K. and Troian, S. M., The development of transient fingering patterns during the
spreading of surfactant coated films. Physics of Fluids, 11(11) (1999) 3232-3246.
73. Matar, O. K. and Troian, S. M., Growth of non-modal transient structures during the spreading
of surfactant coated films. Physics of Fluids, 10(5) (1998) 1234-1236.
74. Matar, O. K. and Troian, S. M., Linear stability analysis of an insoluble surfactant monolayer
spreading on a thin liquid film. Physics of Fluids, 9(12) (1997) 3645-3657.
75. Hamraoui, A., et al., Fingering phenomena during spreading of surfactant solutions. Colloids and
Surfaces A: Physicochemical and Engineering Aspects, 250(1-3) (2004) 215-221.
76. Cachile, M., et al., Contact-line instabilities in liquids spreading on solid substrates. Physica A:
Statistical Mechanics and its Applications, 329(1-2) (2003) 7-13.
77. Nikolov, A. D., et al., Superspreading driven by Marangoni flow. Advances in Colloid and Inter-
face Science, 96(1-3) (2002) 325-338.
78. Starov, V. M., Velarde, M. G. and Radke, C. J., Wetting and Spreading Dynamics. Surfactant
Sciences Series, Vol. 138. Taylor & Frances, 2007.
79. Kumar, S. M. and Deshpande, A. P., Dynamics of drop spreading on fibrous porous media. Col-
loids and Surfaces A: Physicochemical and Engineering Aspects, 277(1-3) (2006) 157-163.
80. Maiti, R. N., et al., The liquid spreading on porous solids: Dual action of pores. Chemical Engi-
neering Science, 60(22) (2005) 6235-6239.
81. Maiti, R. N., et al., Enhanced liquid spreading due to porosity. Chemical Engineering Science,
59(13) (2004) 2817-2820.
82. Holman, R. K., et al., Spreading and infiltration of inkjet-printed polymer solution droplets on a
porous substrate. Journal of Colloid and Interface Science, 249(2) (2002) 432-440.
83. Lake, L. W., Enhanced Oil Recovery. Prentice-Hall, Englewood Cliffs, NJ, 1996.
84. Alleborn, N. and Raszillier, H., Spreading and sorption of droplets on layered porous substrates.
Journal of Colloid and Interface Science, 280(2) (2004) 449-464.
85. Alleborn, N. and Raszillier, H., Spreading and sorption of a droplet on a porous substrate. Chem-
ical Engineering Science, 59(10) (2004) 2071-2088.
86. Starov, V. M., et al., Spreading of liquid drops over dry porous layers: complete wetting case.
Journal of Colloid and Interface Science, 252(2) (2002) 397-408.
87. Starov, V. M., et al., Spreading of liquid drops over porous substrates. Advances in Colloid and
Interface Science, 104(1-3) (2003) 123-158.
88. Davis, S. H. and Hocking, L. M., Spreading and imbibition of viscous liquid on a porous base.
Physics of Fluids, 11(1) (1999) 48-57.
89. Aradian, A., Raphaƫl, E. and de Gennes, P. G., Dewetting on porous media with aspiration. Eur.
Phys. J. E. 2 Soft Matter, (2000) 367-376.
90. Bacri, L. and Brochard-Wyart, F., Droplet suction on porous media. Eur. Phys. J. E. 3 Soft Matter,
(2000) 87-97.
91. Modaressi, H. and Garnier, G., Mechanism of wetting and absorption of water droplets on sized
paper: effects of chemical and physical heterogeneity. Langmuir, 18(3) (2002) 642-649.
92. Heilmann, J. and Lindqvist, U., Effect of drop size on the print quality in continuous ink jet
printing. J. Imaging Sci. Technol., 44(6) (2000) 491-494.
93. Heilmann, J. and Lindqvist, U., Significance of paper properties on print quality in continuous
ink jet printing. J. Imaging Sci. Technol., 44(6) (2000) 495-499.
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