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Styrene monomer synthesis

FIGURE 27 14 A section of polystyrene showing one of the benzene rings modified by chloromethylation Indi vidual polystyrene chains in the resin used in solid phase peptide synthesis are con nected to one another at various points (cross linked) by adding a small amount of p divinylbenzene to the styrene monomer The chloromethylation step is carried out under conditions such that only about 10% of the benzene rings bear —CH2CI groups... [Pg.1142]

Vinylpyridine (23) came into prominence around 1950 as a component of latex. Butadiene and styrene monomers were used with (23) to make a terpolymer that bonded fabric cords to the mbber matrix of automobile tires (25). More recendy, the abiUty of (23) to act as a Michael acceptor has been exploited in a synthesis of 4-dimethylaminopyridine (DMAP) (24) (26). The sequence consists of a Michael addition of (23) to 4-cyanopyridine (15), replacement of the 4-cyano substituent by dimethylamine (taking advantage of the activation of the cyano group by quatemization of the pyridine ring), and base-cataly2ed dequatemization (retro Michael addition). 4-r)imethyl aminopyri dine is one of the most effective acylation catalysts known (27). [Pg.326]

The performance of many metal-ion catalysts can be enhanced by doping with cesium compounds. This is a result both of the low ionization potential of cesium and its abiUty to stabilize high oxidation states of transition-metal oxo anions (50). Catalyst doping is one of the principal commercial uses of cesium. Cesium is a more powerflil oxidant than potassium, which it can replace. The amount of replacement is often a matter of economic benefit. Cesium-doped catalysts are used for the production of styrene monomer from ethyl benzene at metal oxide contacts or from toluene and methanol as Cs-exchanged zeofltes ethylene oxide ammonoxidation, acrolein (methacrolein) acryflc acid (methacrylic acid) methyl methacrylate monomer methanol phthahc anhydride anthraquinone various olefins chlorinations in low pressure ammonia synthesis and in the conversion of SO2 to SO in sulfuric acid production. [Pg.378]

The approach outlined in Scheme 7 was directly applied to the synthesis of dendritic poly(isoprenes), by simple substitution of isoprene for the styrene monomer [29]. Two coupling agents were examined in this case, namely CDMSS and 2-chlorodimethylsilyl-l,3-butadiene. Other interesting architec-... [Pg.234]

Wullf and Hohn recently described several new stereochemical results (93). They reported the synthesis of a copolymer between a substituted styrene (M ) and methyl methaciylate (M2) having, at least in part, regular. . . M,M M2M MiM2. . . sequences. Polymerization involves the use of a chiral template to which the styrene monomer is loosely bound. After elimination of the template, the polymer shows notable optical activity that must be ascribed to the presence of a chiral stmcture similar to that shown in 53 (here and in other formulas methylene groups are omitted when unnecessaiy for stereochemical information). This constitutes the first stereoregular macromolecular compound having a three monomer unit periodicity. [Pg.16]

Synthesis of a styrene monomer containing a diiron hexacarbonyl moiety and its copolymer together with the metal atom of the preferred copolymers has been achieved [6]. (3) and (4) (Fig. 2) undergo free radical copolymerization with... [Pg.93]

Two approaches were taken to prepare polymer D [83]. The synthesis of the polymer involved combining methacrylate and styrene monomers with either a free pyridine ligand or a pyridine with Re(phen)(CO)3 attached. For the polymer with the free pyridine, Re(phen)(CO)3 was attached in a second step. Both routes led to polymers with similar properties. [Pg.80]

PS macromonomers have been efficiently applied to the synthesis of well-defined polymer hybrids with controlled length of grafts. They are, in general, prepared via living anionic polymerization of styrene monomers and their treatment with vinyl compounds, such as -allyl, -undecenyl, and styryl compounds. [Pg.107]

Synthesis. Styrene monomer. Polysciences Inc., and divinylbenzene, DVB, Scientific Polymer Products, were cleaned by a column chromatographic technigue using neutral alumina. Poly(vinyl methyl ether). Scientific Polymer Products, My = 1.3x10 g/mole, was supplied as a 50 wt% toluene solution. Dicumyl peroxide, Pfaltz and Bauer, benzoin, Aldrich Chemical, and toluene, Fisher Chemical, were used as received. [Pg.422]

Another approach to the preparation of polymer-supported metal Lewis acids is based on polymerization of functional monomers. If synthesis of the functional monomer is not difficult, polymerization should afford structurally pure functional polymers, because the polymer formed requires no further complicated chemical modification. A variety of substituted styrene monomers are now commercially available styrene monomers with an appropriate ligand structure can be prepared from these. Several other interesting functional monomers such as glycidyl methacrylate, 2-hydr-oxyethyl methacrylate, and other acrylics have also been used extensively to prepare functional polymers. [Pg.946]

Al-Hourani BJ, Bravo-Vasquez JP, Hermann High LR, Fenniri H (2007) Synthesis and characterization of aryl thioacetyl styrene monomers towards a new generation of SERS-active polymers. Tetrahedron Lett 48 9144... [Pg.47]

Styrene and butadiene also form copolymers known as high impact polystyrene, or rubber-modified polystyrene, when the content of butadiene is 10%. This type of material has excellent mechanical properties, and it is widely used in practice for the manufacturing of numerous objects, including parts for household appliances, furniture, etc. Rubber-modified polystyrene is commonly used as wood replacement and also for packaging. The synthesis of this material typically is done by dissolving polybutadiene in styrene monomer, followed by free radical polymerization achieved using a peroxide catalyst. This procedure leads to block or graft type copolymers. [Pg.246]

The synthesis of cationic organoiron containing polymethacrylates and polystyrenes has been reported. The radical polymerization of methacrylate and styrene monomers containing cationic cyclopentadienyliron complexes produced polymers with cationic cyclopentadienyliron complexes in their side chains (Scheme 2.57).265,266 Monomer 216 and polymer 217 were both redox active and underwent reversible reduction processes. An organic analog of the cationic organoiron polymer was obtained by photolytic cleavage of the cationic cyclopentadienyliron... [Pg.92]

Finally, Chiefari et al. [315-317] suggested another technique leading to the synthesis of addition-fragmentation-type macromonomers but without the use of any CTA. This method, clean, easy, and economical, involves heating a mixture of acrylate or styrene monomer in an appropriate solvent with an azo or peroxy initiator. High temperatures (typically up to 150 °C) are required. To prove the expected mechanism, the authors studied the poly(alkyl acrylate) reactions in the presence (or not) of monomers and by using different conditions. They showed the reaction does not occur without the monomer. Moreover, an increase of the temperature leads to a better yield and a decrease of the molar mass. Macromonomers have been synthesized by this technique withMn between 103 and 104 gmol... [Pg.109]

See other pages where Styrene monomer synthesis is mentioned: [Pg.489]    [Pg.541]    [Pg.366]    [Pg.45]    [Pg.158]    [Pg.410]    [Pg.419]    [Pg.116]    [Pg.44]    [Pg.388]    [Pg.111]    [Pg.405]    [Pg.23]    [Pg.489]    [Pg.603]    [Pg.703]    [Pg.80]    [Pg.672]    [Pg.1890]    [Pg.122]    [Pg.9]    [Pg.4]    [Pg.35]    [Pg.489]    [Pg.541]    [Pg.3]    [Pg.152]    [Pg.574]    [Pg.579]    [Pg.3]   
See also in sourсe #XX -- [ Pg.123 ]



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