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Soluble monolayers, interaction

A dynamic technique is described for obtaining surface elasticity (e0) vs. surface pressure (tt) curves which can be transformed into accurate tt—A curves for soluble monolayers. Small amplitude periodic area variations are used with a sufficiently high frequency to make monolayers effectively insoluble in the time of the experiment even though they behave as soluble in equilibrium measurements. plots are given for some nonionic surfactants. Straight line portions in these plots illustrate that surface interactions are too complex to be described by a Frumkin isotherm. In the limit of very low surface pressures there is no trace of an ideal gaseous region. Some examples show the implications of particular e0—rr curves for equilibrium and dynamic surface behavior. [Pg.281]

In this paper we propose a dynamic method for tackling the problem of interactions in soluble monolayers. The surface dilational modulus, e, is a dynamic surface quantity very sensitive to interactions. It is defined as the decrease in local surface pressure per unit relative increase in surface area A in an oscillatory experiment ... [Pg.282]

The study of the surface properties and characteristics of insoluble and soluble monolayers gives information concerning molecular dimensions, intermolecular interaction, and interaction with substrate. [Pg.270]

The lag-phase measurement at 234 nm of the development of conjugated dienes on copper-stimulated LDL oxidation is used to define the oxidation resistance of different LDL samples (Esterbauer et al., 1992). During the lag phase, the antioxidants in LDL (vitamin E, carotenoids, ubiquinol-10) are consumed in a distinct sequence with a-tocopherol as the first followed by 7-tocopherol, thereafter the carotenoids cryptoxanthin, lycopene and finally /3-carotene. a-Tocopherol is the most prominent antioxidant of LDL (6.4 1.8 mol/mol LDL), whereas the concentration of the others 7-tocopherol, /3-carotene, lycopene, cryptoxanthin, zea-xanthin, lutein and phytofluene is only 1/10 to 1/300 of a-tocopherol. Since the tocopherols reside in the outer layer of the LDL molecule, protecting the monolayer of phospholipids and the carotenoids are in the inner core protecting the cholesterylesters, and the progression of oxidation is likely to occur from the aqueous interface inwards, it seems reasonable to assign to a-tocopherol the rank of the front-line antioxidant. In vivo, the LDL will also interact with the plasma water-soluble antioxidants in the circulation, not in the artery wall, as mentioned above. [Pg.47]

Shimomura and Kunitake have reported that stable monolayers and LB films were obtained by electrostatic interaction of water soluble anionic polymers with cationic amphiphiles [58]. This polyion-complexation was also a useful method for stabilization of monolayers of unstable [59] or water soluble anionic surfactants [60]. Mixtures of water soluble cationic and anionic surfactants (1 1) also formed stable Langmuir monolayers at the air/ water interface [60]. [Pg.216]

Pitcher WH III, Keller SL, Huestis WH. Interaction of nominally soluble proteins with phospholipid monolayers at the air-water interface. Biochim Bio-phys Acta 2002 1564 107. [Pg.84]

Epitaxial growth of PbS under well-compressed AA monolayers is explicable in terms of the geometrical complementarity between PbS and the AA head-groups. The strong intrinsic electrostatic interaction results in a very high Pb2+ concentration at the monolayer interface. The extremely low solubility of PbS in water (KSP = 8.81 x 10 29 at 25 °C) favors its rapid and random nucleation. However, the presence of the monolayer acts to drastically diminish the reaction... [Pg.155]

The principal requirements for an ideal gaseous film are that the constituent molecules must be of negligible size with no lateral adhesion between them. Such a film would obey an ideal two-dimensional gas equation, ttA kT, i.e. the it-A curve would be a rectangular hyperbola. This ideal state of affairs is, of course, unrealisable but is approximated to by a number of insoluble films, especially at high areas and low surface pressures. Monolayers of soluble material are normally gaseous. If a surfactant solution is sufficiently dilute to allow solute-solute interactions at the surface to be neglected, the lowering of surface tension will be approximately linear with concentration - i.e. [Pg.103]

Usually, the fabrication of a close - packed assembly of amphiphilic molecules at an air - water interface by the Langmuir method requires suitable subphase conditions related to the ionic species and its concentration, pH, temperature and addition of another complementary solutes. In the last case, to explore the feasibility of enhancing the interactions of some amphiphilic polymers with water soluble polymers at the air - water interface, it was studied the system of poly(monomethyl itaconate) (PMMel) as subphase stabilizer of maleic anhydride - alt - stearyl methacrylate(MA-alt-StM) monolayers at the air - water interface. [Pg.179]

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See also in sourсe #XX -- [ Pg.273 ]



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Monolayers interactions

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