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Interactions With Sorbents

Various binders have been used to give mechanical stability to the layer spread on the suppon plate. Basic requirements are that the binder should not interfere with solute-sorbent interactions, with elution, and detection procedures. At the same time, these binders have to provide compact and adherent layers together with the sorbent. There are various binders that have been applied to prepare the stationary phase for planar chromatography (Table 10.7). [Pg.464]

There was studied dependence of sorption rate values of microamounts high listed elements from time of their contact with sorbents, pH media and means of equilibrium concentration. It is shown that owing to exchange of sorbents surface characteristics, its hydrating rate value and heterogeneity of sorbate and hydrolyzed forms of metals investigated interaction with surface can simultaneously proceed on several mechanisms. The contributions of various factors into adsorption of elements-analogues are depended from sorption conditions and nature of sorbent surface. [Pg.265]

Easily Ionized Substances Adjust pH to enhance interaction with the sorbent. [Pg.904]

In reality, many proteins demonstrate mixed mode interactions (e.g., additional hydrophobic or silanol interactions) with a column, or multiple structural conformations that differentially interact with the sorbent. These nonideal interactions may distribute a component over multiple gradient steps, or over a wide elution range with a linear gradient. These behaviors may be mitigated by the addition of mobile phase modifiers (e.g., organic solvent, surfactants, and denaturants), and optimization (temperature, salt, pH, sample load) of separation conditions. [Pg.296]

Solid phase extraction (SPE) involves the separation of components of samples in solution through their selective interaction with and retention by a solid, particulate sorbent. SPE depends on differences in the affinities of the various components of the sample for the sorbent. The mechanisms of the interactions are virtually identical to the sorption processes that form the basis of liquid chromatographic separations (p. 80). The choice of solvent, the pH and ionic strength of aqueous solutions, and the chemical nature of the sorbent surface, especially its polarity, are all of importance in controlling the selectivity and efficiency of an extraction. [Pg.70]

Modified silica with a C18 reversed-phase sorbent has historically been the most popular packing material, owing to its greater capacity compared to other bonded silicas, such as the C8 or CN types [22]. Applications of C18 sorbents include the isolation of hydrophobic species from aqueous solutions. The mechanism of interaction with such sorbents depends on van der Waals forces, and secondary interactions such as hydrogen bonding and dipole-dipole interactions. Nevertheless, the main drawbacks of such sorbents are their limited breakthrough volumes for polar analytes, and their narrow pH stability range. For these reasons, reversed-phase polymeric sorbents are also used frequently in environmental applications for the trace enrichment of soluble molecules that are not isolated by reversed-phase sorbents such as C18. [Pg.56]

According to this method and under the hypothesis of weak solubility interactions, the logarithm of the partition coefficient of a sorbent layer with respect to a certain volatile species is the linear combination of five terms expressing the intensity of five basic interaction mechanisms. They are polarizability, polarity, two terms describe the hydrogen bonding considering the analyte acting as an acid and a base respectively, and... [Pg.163]

Ionic surfactants also participate in specific chemical and electrostatic interactions with sorbents that do not occur with non-ionic compounds. In fact, recent research has shown that hydrophobic... [Pg.645]

One of the important operational variables in CEC is the analyte—sorbent interaction. In reversed-phase separations (typical in CEC) the hydrophobicity of the stationary phase determines the selectivity of the separation, and retention can be controlled by adjusting the surface chemistry of the packing, composition of the mobile phase, and temperature. In contrast to HPEC, the CEC column plays a dual role in providing a flow driving force and separation unit at the same time hence electrophoretic and chromatographic processes are operational. The stationary phase chemistry is dealt with in detail in Section III on column technology. [Pg.448]

The oxide surface has structural and functional groups (sites) which interact with gaseous and soluble species and also with the surfaces of other oxides and bacterial cells. The number of available sites per unit mass of oxide depends upon the nature of the oxide and its specific surface area. The specific surface area influences the reactivity of the oxide particularly its dissolution and dehydroxylation behaviour, interaction with sorbents, phase transformations and also, thermodynamic stability. In addition, specific surface area and also porosity are crucial factors for determining the activity of iron oxide catalysts. [Pg.95]

See other pages where Interactions With Sorbents is mentioned: [Pg.99]    [Pg.182]    [Pg.99]    [Pg.182]    [Pg.13]    [Pg.748]    [Pg.396]    [Pg.905]    [Pg.120]    [Pg.134]    [Pg.268]    [Pg.270]    [Pg.294]    [Pg.296]    [Pg.449]    [Pg.82]    [Pg.107]    [Pg.162]    [Pg.7]    [Pg.56]    [Pg.419]    [Pg.420]    [Pg.791]    [Pg.504]    [Pg.636]    [Pg.636]    [Pg.650]    [Pg.42]    [Pg.44]    [Pg.284]    [Pg.24]    [Pg.456]    [Pg.233]    [Pg.552]    [Pg.554]    [Pg.569]    [Pg.569]    [Pg.570]    [Pg.575]    [Pg.577]    [Pg.591]    [Pg.604]   
See also in sourсe #XX -- [ Pg.242 ]



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