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Nonaqueous suspensions

Gast A P, Flail C K and Russel W B 1983 Polymer-induced phase separations in nonaqueous colloidal suspensions J. Colloid Interface Sol. 96 251 -67... [Pg.2694]

Acryhc and methacryhc nonaqueous dispersions (NADs) are primarily utilized by the coatings industry to avoid certain difficulties associated with aqueous dispersion (emulsion) polymers. Water as a suspension medium has numerous practical advantages, but also some inherent difficulties a high heat of evaporation, a low boiling point, and an evaporation rate that depends on the prevailing humidity. Nonaqueous dispersions alleviate these problems, but introduce others such as flammabihty, increased cost, odor, and toxicity. [Pg.268]

The use of a water-immiscible Hquid to separate coal from impurities is based on the principle that the coal surface is hydrophobic and preferentially wetted by the nonaqueous medium whereas the minerals, being hydrophilic, remain suspended in water. Hence, separation of two phases produces a clean coal containing a small amount of a nonaqueous Hquid, eg, oil, and an aqueous suspension of the refuse. This process is generally referred to as selective agglomeration. [Pg.255]

Cross-flow-elec trofiltratiou (CF-EF) is the multifunctional separation process which combines the electrophoretic migration present in elec trofiltration with the particle diffusion and radial-migration forces present in cross-flow filtration (CFF) (microfiltration includes cross-flow filtration as one mode of operation in Membrane Separation Processes which appears later in this section) in order to reduce further the formation of filter cake. Cross-flow-electrofiltratiou can even eliminate the formation of filter cake entirely. This process should find application in the filtration of suspensions when there are charged particles as well as a relatively low conduc tivity in the continuous phase. Low conductivity in the continuous phase is necessary in order to minimize the amount of elec trical power necessaiy to sustain the elec tric field. Low-ionic-strength aqueous media and nonaqueous suspending media fulfill this requirement. [Pg.2008]

Reactions involving organic substances have some special features. Many of these substances are poorly soluble in aqueous solutions. Sometimes their solubilities can be raised by adding to the solution the salts of aromatic sulfonic acids with cations of the type [NHJ or alkali metal ions. These salts have a salting-in effect on poorly soluble organic substances. In many cases solutions in mixed or nonaque-ous solvents (e.g., methanol) are used. Suspensions of the organic substances in aqueous solutions are also useful for electrosynthesis. [Pg.280]

Today, lipophilicity can be determined in many systems that are classified by the characteristics of the nonaqueous phase. When the second phase is an organic solvent (e.g. n-octanol), the system is isotropic, when the second phase is a suspension (e.g. liposomes), it is anisotropic, and when the second phase is a stationary phase in liquid chromatography, it is an anisotropic chromatographic system [6]. Here, we discuss the main aspects of isotropic and anisotropic lipophilicity and their biological relevance the chromatographic approaches are investigated in the following chapter by Martel et al. [Pg.322]

By coating poly-a-olefins with a fatty acid wax as a partitioning agent and dispersing it in a long-chain alcohol, a nonagglomerating, nonaqueous suspension can be obtained [918]. [Pg.172]

For C02 reduction in powder suspension systems, the use of nonaqueous solvents has not yet been reported. [Pg.367]

The preparation of four niclosamide solvates and the study of their physical transformation and stability of the crystal forms in different suspension vehicles by DSC and thermal gravimetry (TG) were reported [18]. Thermal analysis showed that the niclosamide solvates were extremely unstable in a propylvinylpropyline (PVP)-vehicle and rapidly changed to monohydrated crystals. A suspension in propylene glycol was more stable and TG analysis showed that crystal transformation was less rapid. In this vehicle, the crystals transformed to the anhydrate, rather than the monohydrate, since the vehicle was nonaqueous. The TEG-hemisolvate was the most stable in suspension and offered the possibility of complex exploitation [18]. [Pg.87]

The chemical and physical stability of aqueous and nonaqueous suspensions of a number of solvatomorphs of niclosamide has been evaluated in an effort to develop pharmaceutically acceptable suspension formulations [90]. Studied in this work was the anhydrate, two polymorphic monohydrates, the 1 1, Y, A"-dimethyI I ormam ide solvatomorph, the 1 1 dimethyl sulfoxide solvatomorph, the 1 1 methanol solvato-morph, and the 2 1 tetraethylene glycol hemisolvate. All of the solvatomorphs were found to convert initially to one of the polymorphic monohydrates, and over time converted to the more stable monohydrate phase. The various solvatomorphs could be readily desolvated into isomorphic desolvates, but these were unstable and became re-hydrated or re-solvated upon exposure to the appropriate solvent. [Pg.275]

Absorption from the GI tract is controlled by a variety of factors. These include the acid-base characteristics of the chemical (called the pKa), the solubility, the nature of the delivery (e.g., diet vs. gavage), the nature of any vehicle (suspensions vs. solution, or aqueous vs. nonaqueous), and the gastrointestinal tract of the species under study. [Pg.699]

A.P. Gast, C.K. Hall, and W.B. Russel Polymer-Induced Phase Separations in Nonaqueous Colloidal Suspensions. J. Colloid Interface Sci. 96, 251 (1983). [Pg.124]

The practical use of the desorption reaction requires a catalyst for the improvement of the kinetics. The first work on catalyzed alanates at MPI - Miilheim was derived from studies that used transition-metal catalysts for the preparation of MgH2- The NaAlH4 was doped with Ti by solution chemistry techniques whereby nonaqueous liquid solutions or suspensions of NaAlH4 and either TiCl3 or the alkoxide Ti(OBu )4 [titanium(IV) w-butoxide] catalyst precursors were decomposed to precipitate solid Ti-doped NaAlH4 [57, 58]. [Pg.145]

So far, we have prepared and tested many kinds of colloids, mainly in nonaqueous suspensions with combinations of metals or alloys as a dispersed phase and organic liquids as the dispersion media, without the use of any dispersing agents these are listed in Table 9.4.1. We next give some examples of transmission electron micrographs of nanoparticles produced by an aerosol method. A sample for TEM measurement was obtained by dropping colloidal suspension onto a Cu mesh coated with an evaporated carbon film of 10 nm thickness. Many colloids were so unstable... [Pg.527]

In aqueous suspension, the stability is discussed in reference to the DLVO (Deryaguin-Landau-Verway-Overbeek) theory. Within this framework, all solid substances have a tendency to coagulate due to their large van der Waals attractive force. The coulombic repulsive force among colloidal particles more or less prevents this tendency. These two opposite tendencies determine the stability of suspensions. What kind of parameters are concerned in the present nonaqueous system, for which little is known about the stability This is an interest in this section. [Pg.534]

Byron PR, Dalby RN, Hickey AJ. Optimized inhalation aerosols. I. The effects of spherical baffle size and position upon the output of several pressurized nonaqueous suspension formulations. Pharma Res 1989 6(3) 225-229. [Pg.245]

To determine the mutagenic potential of nonaqueous liquids as measured by the Ames SaZmoneZ/a/mammalian-enzyme assay, the following protocol is recommended for the sample preparation. In step 1, the desiccator assay is performed on the neat material. The desiccator assay allows the detection of volatile mutagens (such as chlorinated solvents) that are often missed in the plate incorporation and pre-in-cubation assays (16, 17). In addition, a suspension of the neat material (20 mg/mL) is prepared by ultrasonication (5 min at room temperature) in high-purity DMSO (18, 19) and tested in the normal plate incorporation assay as well as in a pre-incubation Ames assay (20). The pre-in-cubation assay allows the detection of certain mutagens, such as dimethylnitrosamine, that require additional time for activation by mammalian or bacterial enzymes. A positive response in any of these three assays indicates the presence of mutagenic components, and the evaluation process is completed. [Pg.36]

PAA can be prepared using bulk polymerization, aqueous polymerization, nonaqueous polymerization, inverse phase emulsion and suspension polymerization. The precise structure of the resulting PAA chain is dependent upon many factors including the polymerization process and conditions. The tacticity of... [Pg.166]

Silicone oil was also recently employed by the group of Peng as an alternative nonaqueous solvent system for suspention polymerisation [22]. Silicone oil has the advantage of being cheap, inert and rather viscous, which enhances the stability of the monomer droplets in suspension. In this case, composite MIP beads were prepared including magnetic nanoparticles. FesCL nanoparticles (average diameter... [Pg.34]

Table 2.6 Composition of nonaqueous suspension barrier dressing... Table 2.6 Composition of nonaqueous suspension barrier dressing...
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Nonaqueous

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