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Monomers ester linkages

The ester linkage in the repeating unit characterizes polyesters. R and R represent portions of the monomer molecule that do not participate in the polymerization. They may vary widely, giving rise to many different polyesters. Poly(ethylene terephthalate) (PET), made from ethylene glycol... [Pg.429]

During this early period, a very ingenious free-radical route to polyesters was used to introduce weak linkages into the backbones of hydrocarbon polymers and render them susceptible to bio degradabihty (128—131). Copolymerization of ketene acetals with vinyl monomers incorporates an ester linkage into the polymer backbone by rearrangement of the ketene acetal radical as illustrated in equation 13. The ester is a potential site for biological attack. The chemistry has been demonstrated with ethylene (128—131), acryhc acid (132), and styrene (133). [Pg.480]

The metabohc rate of poly(ester—amide) where x = Q has been studied in rats using carbon-14 labeled polymer. This study indicates that polymer degradation occurs as a result of hydrolysis of the ester linkages whereas the amide linkages remain relatively stable in vivo. Most of the radioactivity is excreted by urine in the form of unchanged amidediol monomer, the polymer hydrolysis product (51). [Pg.192]

Although polymers in-service are required to be resistant toward hydrolysis and solar degradation, for polymer deformulation purposes hydrolysis is an asset. Highly crystalline materials such as compounded polyamides are difficult to extract. For such materials hydrolysis or other forms of chemolysis render additives accessible for analysis. Polymers, which may profitably be depolymerised into their monomers by hydrolysis include PET, PBT, PC, PU, PES, POM, PA and others. Hydrolysis occurs when moisture causes chain scissions to occur within the molecule. In polyesters, chain scissions take place at the ester linkages (R-CO-O-R ), which causes a reduction in molecular weight as well as in mechanical properties. Polyesters show their susceptibility to hydrolysis with dramatic shifts in molecular weight distribution. Apart from access to the additives fraction, hydrolysis also facilitates molecular characterisation of the polymer. In this context, it is noticed that condensation polymers (polyesters, -amides, -ethers, -carbonates, -urethanes) have also been studied much... [Pg.152]

Figure 12.6.1 Ester linkages that connect monomers to form polymeric molecules known as polyesters. Figure 12.6.1 Ester linkages that connect monomers to form polymeric molecules known as polyesters.
Fig. 5.17 Schematic of electropolymerization of CNT-polypyrrole hybrid via (a) ester linkage and (b) noncovalent pyrene linkage of pyrrole monomer with schematic of hybrid and SEM. Scale 200 nm. Reproduced with permission from [222], (2008) Elsevier. Fig. 5.17 Schematic of electropolymerization of CNT-polypyrrole hybrid via (a) ester linkage and (b) noncovalent pyrene linkage of pyrrole monomer with schematic of hybrid and SEM. Scale 200 nm. Reproduced with permission from [222], (2008) Elsevier.
Table 2.2 shows two common polymers that are formed by condensation. Notice that DacronT", a polyester, contains ester linkages between monomers. Nylon-6, a polyamide, contains amide linkages between monomers. [Pg.84]

The reactive hydrogen site supplied by the organic acid controls the nximber of polymer molecules the basic catalyst effectively results in the alternate addition of oxlrane/anhydride monomers, forming ester linkages at the reactive hydrogen site ( 5). [Pg.119]

Although we will not be discussing the mechanism of each type of step growth polymer because these reactions are very similar to the corresponding monomer chemistry, we should be aware of this analogy. For instance, an acid reacts with an alcohol under acid-catalyzed conditions by a certain well-studied and proven mechanism. This same mechanism is followed each time an ester linkage of a polyester is formed. One such transformation is outlined in Fig. 14.8. The equilibrium is shifted in the direction of the product by distillation of the water from the reaction mixture (and condensing it in a separate container—hence the name condensation polymers for this type). [Pg.261]

It has been known for some time [see Ref. (176) for earlier work] that if poly(vinyl alcohol), produced by hydrolysis of poly(vinyl acetate) is reacetylated, the PVAc so obtained has a lower MW than the original PVAc prior to hydrolysis, though the MW of the material is not lowered any further by subsequent cycles of hydrolysis and reacetylation. Various explanations had been advanced for this phenomenon Wheeler explained it as a consequence of the presence of branches joined to the main chain through ester linkages which would be broken on hydrolysis and not re-formed on reacetylation. These branches were ascribed to chain transfer reactions with acetate groups, either in the polymer, or in monomer molecule subsequently polymerized at their double bonds. Transfer reactions by attack on hydrogen atoms other than those in... [Pg.52]

One of the most investigated type of reaction in the field of catalytic imprinted polymers, as indicated by the large number of publications available, is certainly ester hydrolysis. In particular, a great deal of work has been carried out on systems inspired by hydrolytic enzymes since 1987. In 2000, Shea et al. [37] reported the preparation of enantioselective imprinted polymers for the hydrolysis of N-tert-butoxycarbonyl phenylalanine-p-nitrophenyl ester (55), using a system already developed by the same group in 1994 [19]. The system was inspired by the natural hydrolytic enzyme chymotrypsin and polymerisable imidazole units (27) were used as functional monomers coupled via ester linkages to a chiral phosphonate (56), analogue of (d)- or (L)-phenyl-alanine. After template removal, the imprinted polymers showed selectivity towards the hydrolysis of the enantiomer with which they were imprinted. The ratio of the rate constants, k /k, was 1.9 for the polymer imprinted with the D-enantiomer and kjku was 1.2 for that imprinted with the L-enantiomer. Moreover, the imprinted polymer showed a 2.5-fold increase in the rate of the reaction when compared with the control polymer, imprinted with a... [Pg.323]

A carboxylic acid monomer and an alcohol monomer can join in an ester linkage. [Pg.199]

Because the monomers above are all joined by ester linkages, the polymer chain is a polyester. This one is called PET, which stands for poly(ethylene terephthalate). (PET is used to make soft-drink bottles, magnetic tape, and many other plastic products.)... [Pg.199]

The anionic polymerization of 49 initiated with lithium benzophenone ketyl gave the polymer 50 having a cisjtrans ratio of 42/58. Probably it proceeded through the acyl-oxygen scission of the ester linkage of the monomer. The formation... [Pg.21]

A polymer in which the monomer units are bonded together by carbonate ester linkages, (p. 1034)... [Pg.1036]

See other pages where Monomers ester linkages is mentioned: [Pg.9]    [Pg.230]    [Pg.21]    [Pg.379]    [Pg.40]    [Pg.233]    [Pg.341]    [Pg.3]    [Pg.18]    [Pg.153]    [Pg.217]    [Pg.13]    [Pg.25]    [Pg.157]    [Pg.172]    [Pg.246]    [Pg.311]    [Pg.100]    [Pg.97]    [Pg.33]    [Pg.187]    [Pg.124]    [Pg.641]    [Pg.269]    [Pg.1150]    [Pg.127]    [Pg.230]    [Pg.321]    [Pg.288]    [Pg.58]    [Pg.242]    [Pg.171]    [Pg.24]    [Pg.417]   
See also in sourсe #XX -- [ Pg.153 , Pg.217 ]

See also in sourсe #XX -- [ Pg.153 , Pg.217 ]



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Monomers linkage

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