2-Vinyl pyridine

Copolymers can be used to introduce a mixture of chemical functionalities into a polymer. Acidic and basic substituents can be introduced, for example, through comonomers like acrylic acid and vinyl pyridine. The resulting copolymers show interesting amphoteric behavior, reversing their charge in solution with changes of pH. [Pg.469]

We shall be interested in determining the effect of electrolytes of low molecular weight on the osmotic properties of these polymer solutions. To further simplify the discussion, we shall not attempt to formulate the relationships of this section in general terms for electrolytes of different charge types-2 l, 2 2, 3 1, 3 2, and so on-but shall consider the added electrolyte to be of the 1 1 type. We also assume that these electrolytes have no effect on the state of charge of the polymer itself that is, for a polymer such as, say, poly (vinyl pyridine) in aqueous HCl or NaOH, the state of charge would depend on the pH through the water equilibrium and the reaction... [Pg.569]

Amongst miscellaneous UV spectra recorded are those of alkylthio adducts of pyrido[3,2-c]pyridazine (78KGS1272), various pyrido[3,4-d]pyridazines (57AC(R)728) and several vinyl-pyridine-azodicarboxylic ester adducts (79T2027, 79KGS639). [Pg.236]

The other main source of various pyridopyridazines from pyridines are the [4 + 2] cycloaddition reactions, already mentioned (Section 2.15.8.3), between vinylpyridines and azodicarboxylic esters (79T2027, 79KGS639) or triazolidinediones e.g. 78KGS651). 2-Vinyl-pyridines gave reduced pyrido[3,2-c]pyridazines (370), 4-vinylpyridines gave [3,4-c] analogues, whilst 2-methyl-5-vinylpyridine furnishes a mixture of the [2,3-c] and [4,3-c] compounds. Yields are low, however, and these remain curiosities for practical synthetic purposes. [Pg.246]

The toughness of interfaces between immiscible amorphous polymers without any coupling agent has been the subject of a number of recent studies [15-18]. The width of a polymer/polymer interface is known to be controlled by the Flory-Huggins interaction parameter x between the two polymers. The value of x between a random copolymer and a homopolymer can be adjusted by changing the copolymer composition, so the main experimental protocol has been to measure the interface toughness between a copolymer and a homopolymer as a function of copolymer composition. In addition, the interface width has been measured by neutron reflection. Four different experimental systems have been used, all containing styrene. Schnell et al. studied PS joined to random copolymers of styrene with bromostyrene and styrene with paramethyl styrene [17,18]. Benkoski et al. joined polystyrene to a random copolymer of styrene with vinyl pyridine (PS/PS-r-PVP) [16], whilst Brown joined PMMA to a random copolymer of styrene with methacrylate (PMMA/PS-r-PMMA) [15]. The results of the latter study are shown in Fig. 9. [Pg.233]

The acid/base interaction between the two polymers significantly increases the cohesive strength of the polymer blend at normal use temperatures but at elevated temperature the interaction can be interrupted and the polymer can still be melt processed. Other examples of basic polymers use for crosslinking include polyethylenimines, vinyl pyridine copolymers, and the like. [Pg.499]

Poly(butadiene-l>-vinyl pyridine) or poly(isoprene-l>-vinyl pyridine) Ni/Et3Al catalysis BF3 and CFAlEt used to complex vinyl pyridine to increase rate of hydrogenation BFj released by NH4OH... [Pg.170]

Cellulose Esters Epoxy Resins Lignins Polystyrene Poly (2-vinyl pyridine) Polyvinyl Chloride Polymethyl methacrylate Polyphenylene Oxide Phenolics Polycarbonate Polyvinyl Acetate, etc. Polyvinyl butyral SBR rubber, etc., etc. [Pg.161]

Cationic, hydrophilic, and hydrophobic Chitosan, poly-2-vinyl pyridine 0.3-1.0 M salt/buffer, pH 2-7 with the addition of methanol for more hydrophobic polymers... [Pg.364]

A commercially available cationic standard that can be used for the calibration of CATSEC columns is poly(2-vinyl pyridine), or PVP. Cationic PVP can be characterized easily on CATSEC columns over a broad range of molecular weight. DRI chromatograms of two cationic PVP standards using a bank of CATSEC columns (100-, 300-, 1000-, and 4000-A pore size) and a mobile phase of 0.05 N NaNOi/0.1% TFA are shown in Fig. 20.10. [Pg.575]

TABLE 20.10 SEC-MALLS Data for Cationic Poly(2-vinyl pyridine) Standards Using MALLS and CATSEC Columns°... [Pg.577]

The alkylation of enamines with 2- and 4-vinyl pyridines has also been described (J/9). [Pg.365]

As previously described, all microspheres discussed in this chapter were synthesized from AB type diblock copolymers. Precursor block copolymers, poly(styrene-b-4-vinyl pyridine) (P[S-b-4VP]) diblock copolymers, were synthesized using the additional anionic polymerization technique [13]. The basic properties of the block copolymers were determined elsewhere [24,25] and are listed... [Pg.602]

As these block copolymers were synthesized using the anionic polymerization technique, their molecular weight distributions were narrow. The microspheres with narrower size distribution are better for well-ordered self-organization. Actually, all block copolymers synthesized for these works formed poly(4-vinyl pyridine) (P4VP) spheres in the PS matrices with narrow size distributions. [Pg.602]

The poly(styrene-b-isoprene) (P(S-b-IP)) and poly(-styrene-b-2-vinyl pyridine) (P(S-b-2VP)) block copolymers with narrow molecular weight distributions for blending with the microspheres were also synthesized using the additional anionic polymerization technique. The number-average molecular weights (Mns) and PS contents are also shown in Table 1. [Pg.602]

Of greatest interest for PAN modification with the purpose of obtaining strongly basic anion-exchange polymers can be the quartemary salts of vinyl pyridines. [Pg.114]

The distinguishing features of the polymerization and copolymerization to these interesting monomers have been described in a number of papers48 49 There are, however, no systematic investigations described in the literature to study the laws governing the reaction of AN copolymerization with quartemary salts of substituted vinyl pyridines. [Pg.114]

Recently, Kunitake and co-workers130 reported a novel catalytic system consisting of C12-2PVP (poly-4-vinyl-pyridine quaternized with laurylbromide and ethylbromide) and N-methylmyristohydroxamic acid, 81 (MMHA). They observed... [Pg.167]

Various substituted styrenes have been also polymerized by NMP. These include 1 03-1 07, p-chloromethylstyrene (108), p-halostyrenes, and p-aceloxystyrene. Vinyl pyridines (e.g. 109) are amenable to NMP21 and may be quaternized post-polymerization to provide water-soluble polymers. [Pg.480]

Py ridin-Boran reduziert im Gegensatzzu den iibrigen Amin-Boranen auch Carbonsauren (s.S. 149), Oxime (S.374), Hydrazone (S.371) bzw. Indole (S.87) und steht als Poly-4-vinyl-pyridin-Boran auch in polymerer Form zur Verfiigung1. [Pg.9]

Nitro-vinyl)-pyridin —> 2-(2-Nitro-iithyl)-pyridin 55% d. Th. [Pg.80]

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