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Divalent polymers

For monovalent electrolytes, the neutral species is MX whereas for divalent polymer electrolytes it is MX2. Recent EXAFS evidence for the presence of ZnBr2 entities in PEOn ZnBr2 polymer electrolytes [98], together with analysis of the spatial distribution of Zn by SEM/EDX [111], adds support to the possible contribution of neutral species to the transport process in this divalent polymer electrolyte. [Pg.21]

Andrews and colleagues made the first use of this technique in a divalent polymer electrolyte, studying the PE04-Cal2 electrolyte. They found that 10 oxygen atoms in the first coordination layer ° surrounded Ca " ions. However, it was not possible to determine whether the contributions of oxygen atoms derived from the PEO matrix or from a possible hydration layer, since the conditions did not exclude the presence of H2O. The study indicated the absence of ion pairs between the first two layers of the neighbouring cation. [Pg.366]

These monomers provide a means for introducing carboxyl groups into copolymers. In copolymers these acids can improve adhesion properties, improve freeze-thaw and mechanical stability of polymer dispersions, provide stability in alkalies (including ammonia), increase resistance to attack by oils, and provide reactive centers for cross-linking by divalent metal ions, diamines, or epoxides. [Pg.1013]

This may be due to ion—oxide surface interactions or to ions already present on the surface. Alternatively, this deviation may reflect varying sihcate polymer acidity. Similar behavior has been observed for the adsorption of aqueous sihca to the surface of y-Al O (67). Divalent metal ions tend to reduce sihcate adsorption. [Pg.7]

Ionic polymers are also formulated from TDI and MDI (43). Poly(urethane urea) and polyurea ionomers are obtained from divalent metal salts of /)-aminohen2oic acid, MPA, dialkylene glycol, and 2,4-TDI (44). In the case of polyureas, the glycol extender is omitted. If TDI is used in coatings apphcations, it is usually converted to a derivative to lower the vapor pressure. A typical TDI prepolymer is the adduct of TDI with trimethyl olpropane (Desmodur L). Carbodiimide-modified MDI offers advantages in polyester-based systems because of improved hydrolytic stabihty (45). Moisture cure systems based on aromatic isocyanates are also available. [Pg.350]

The theory of Leibler holds for mainly compatible systems. Leibler developed a mean field formalism to study the interfacial properties of two polymers, A and B with an A-B copolymer. An expression for interfacial tension reduction was developed by Noolandi and Hong [ 18] based on thermodynamics to explain the emulsifying effect of the A-b-B in immiscible A-B blends (A-A-b-B-B). [18,19]. The expression for interfacial tension reduction Ar) in a binary lend upon the addition of divalent copolymer is given by ... [Pg.637]

Some microbial exopolysaccharides contain the inorganic substituents phosphate and sulphate. Phosphate has been found in exopolysaccharide from bacteria of medical importance, including Escherichia coli. Sulphate is far less common than phosphate and has only been found in spedes of cyanobaderia. In addition to these inorganic components, which form part of the structure of some exopolysaccharides, all polyanionic polymers will bind a mixture of cations. Exopolysaccharides are, therefore, purified in the salt form. The strength of binding of the various cations depend on the exopolysaccharide some bind the divalent cations calrium, barium and strontium very strongly, whereas others prefer certain monovalent cations, eg Na ... [Pg.197]

The final possible mode of action for an antioxidant is as a peroxide decomposer. In the sequences that lead to photodegradation of a polymer the ready fragmentation of the hydroperoxide groups to free radicals is the important step. If this step is interfered with because the peroxide has undergone an alternative decomposition this major source of initiation is removed. The additives which act by decomposing hydroperoxide groups include compounds containing either divalent sulfur or trivalent phosphorus. The mechanism involves... [Pg.124]

Then, the ionic selectivity is discussed and related to the mechanism of crosslinking with divalent counterions. The sol-gel transition is then examined for LM and HM pectins and the mechanisms described in these two cases. The physical properties of the gels are related to the microstructure of the polymers and few data are examined. [Pg.21]

Some divalent cations such as Cu and Pb form very stable complexes with pectate, but are unlikely to be present at sufiScient concentration in the apoplast of plants to form a major fraction of the counterions associated with the pectic fraction in vivo. The Al ion may deserve closer examination, as it is certainly able to displace Ca from cell walls and reaches substantial concentrations in plant roots under some conditions [60,61]. aluminium is not usually considered to be freely translocated, however. Basic peptides with their negative charges spaced at a similar interval to galacturonans (0.43 nm or a small multiple thereof) can in principle have a very high afiBnity for pectate [62,63], but the extensins that are associated with the most insoluble pectic fractions [M] do not appear to have this type of structure. The possibility that the non-extractable pectic polymers in most cell walls are very strongly complexed with some cation other than Ca " cannot be ruled out, but there is little evidence to support it at present. [Pg.167]

Wall, F. T. Drenan, J. W. (1951). Gelation of polyacrylic acid by divalent ions. Journal of Polymer Science, 7, 83-8. [Pg.55]

Polymers with a sizable number of ionic groups and a relatively nonpolar backbone are known as ionomers. The term was first used for copolymers of ethylene with carboxylated monomers (such as methacrylic acid) present as salts, and cross-linked thermoreversibly by divalent metal ions. Such polymers are useful as transparent packaging and coating materials. Their fluorinated forms have been made into very interesting ion-exchange membranes (considered further below). [Pg.450]

In the presence of divalent ions, apart from charge screening, adsorption can be modified due to additional factors arising from specific interactions of the divalent ions with the polymer and the surface. In this case, adsorption of calcium on the Si02 surface (15, 18) not only reduces the surface charge but can also... [Pg.229]

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See also in sourсe #XX -- [ Pg.291 ]



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Divalent

Divalents

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