78. Xu, W., et al., Atomic force microscope measurements of long-range forces near
lipid-coated surfaces in electrolytes. Biophysical Journal, 1997. 72(3): p. 1404-
1413.
79. Meurk, A., P.F. Luckham, and L. Bergstrom, Direct Measurement of Repulsive
and Attractive van der Waals Forces between Inorganic Materials. Langmuir,
1997. 13(14): p. 3896-3899.
80. Ashby, P.D., L.W. Chen, and C.M. Lieber, Probing intermolecular forces and
potentials with magnetic feedback chemical force microscopy. Journal of the
American Chemical Society, 2000.122(39): p. 9467-9472.
81. Dufrene, Y.F., et al., Characterization of the physical properties of model
biomembranes at the nanometer scale with the atomic force microscope. Faraday
Discussions, 1998(111): p. 79-94.
82. Israelachvili, J.N., Strength of Van-Der-Waals Attraction between LipidBilayers.
Langmuir, 1994.10(9): p. 3369-3370.
83. Pera, L, et al., Using the atomic force microscope to study the interaction between
two solid supported lipid bilayers and the influence of synapsin I. Biophysical
Journal, 2004. 87(4): p. 2446-2455.
84. Eisenberg, M., et al., Adsorption of Mono-Valent Cations to Bilayer Membranes
Containing Negative Phospholipids. Biochemistry, 1979. 18(23): p. 5213-5223.
85. Fleck, C.C. and R.R. Netz, Counterions at disordered charged planar surfaces.
Europhysics Letters, 2005. 70(3): p. 341-347.
86. Fleck, C.C. and R.R. Netz, Surfaces with quenched and annealed disordered
charge distributions. European Physical Journal E, 2007. 22(4): p. 261-273.
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