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Introduction of ester groups

This indicates the possibility of making addition polymers biodegradable by the introduction of ester linkages in to the backbone. Since the free radical ring-opening polymerization of cyclic ketene acetals, such as 2-methylene-1,3-dioxepane (1, Scheme I), made possible the introduction of ester groups into the backbone of addition polymers, this appeared to be an attractive method for the synthesis of biodegradable addition polymers. [Pg.150]

Most thermal stabilizers for poly (vinyl chloride) are metal salts of carboxylic acids or mercaptans. The commonly used metals are cadmium, barium, zinc, lead, calcium, and dibutyltin. Originally it was assumed the metal salts act as scavengers for hydrogen chloride. However, Frye and Horst (7, 8) found evidence for the introduction of ester groups in the polymer from metal carboxylate stabilizers, which led them to postulate that thermal stabilizers function by substituting the unstable chlorine atoms with the ligands of the stabilizer to yield derivatives which are more thermally stable than the original chloride. [Pg.17]

The poor result with the reaction of methyl chloroformate and 2-lithiothiazole [9] indicates that the direct introduction of ester groups cannot be applied to... [Pg.33]

The modified aromatic polysulfones attract greater interest every day. The introduction of ester group into the chain makes the molecule flexible, elastic, more fluid and reprocessible. The introduction of bisphenylsul-phonic group brings thermal resistance and form stability. Non-modified polysulfones are hardly reprocessible due to the high temperature of melt and are not used for technical purposes. [Pg.137]

Through the introduction of ester groups at the 3-position of the thiophene ring, electrochromic polymers were formed that were more hydrophilic than poly(3-alkylthiophene)s due to the polar ester group substitution. Two examples, poly(3-methyl-butyric acid 2-thiophen-3-yl-ethyl ester) (7a) [63]... [Pg.852]

Figure 1. Introduction of ester groups into xylan. Figure 1. Introduction of ester groups into xylan.
Geyer et al. [57] have reported on the heterogeneous carboxymethylation of BC. The introduction of ester groups was verified with FT-IR. The DS was 1.3, as determined gravimetrically by the uranyl method. The substitution pattern was assessed by H P LC, revealing a relatively uniform distribution of carboxymethyl groups within the polymer chain. [Pg.143]

End-functional polymers were also synthesized by lipase-catalyzed polymerization of DDL in the presence of vinyl esters [103,104]. The vinyl ester acted as terminator ( terminator method ). In using vinyl methacrylate (12.5 mol % or 15 mol % based on DDL) and lipase PF as terminator and catalyst, respectively, the quantitative introduction of methacryloyl group at the polymer terminal was achieved to give the methacryl-type macromonomer (Fig. 12). By the addition of divinyl sebacate, the telechelic polyester having a carboxylic acid group at both ends was obtained. [Pg.254]

The palladium-catalyzed Heck carbonylation reaction is a powerful means of generating amides, esters, and carboxylic acids from aryl halides or pseudohalides [28]. The development of rapid, reliable, and convenient procedures for the introduction of carbonyl groups is important for the development of high throughput chemistry in general and high-speed microwave-mediated chemistry in particular. Unfortunately, the traditional method of introducing carbon monoxide into a reaction mixture via a balloon or gas tube is not practical because of the special requirements of microwave synthesis. [Pg.387]

Some strategies used for the preparation of support-bound thiols are listed in Table 8.1. Oxidative thiolation of lithiated polystyrene has been used to prepare polymeric thiophenol (Entry 1, Table 8.1). Polystyrene functionalized with 2-mercaptoethyl groups has been prepared by radical addition of thioacetic acid to cross-linked vinyl-polystyrene followed by hydrolysis of the intermediate thiol ester (Entry 2, Table 8.1). A more controllable introduction of thiol groups, suitable also for the selective transformation of support-bound substrates, is based on nucleophilic substitution with thiourea or potassium thioacetate. The resulting isothiouronium salts and thiol acetates can be saponified, preferably under reductive conditions, to yield thiols (Table 8.1). Thiol acetates have been saponified on insoluble supports with mercaptoethanol [1], propylamine [2], lithium aluminum hydride [3], sodium or lithium borohydride, alcoholates, or hydrochloric acid (Table 8.1). [Pg.239]

Regarding acylation reactions, acylation of alcohols produces esters and acylation of amines produces amides Both of these transformations are illustrated in Figure 8.2. These, in addition to the introduction of acyl groups adjacent to carbonyls (Scheme 8.11), only hint at the breadth of related acylation reactions available and useful in organic synthesis. One additional reaction is the Friedel-Crafts acylation illustrated in Scheme 8.12. Through this transformation, extended functionalization of aryl groups becomes accessible. [Pg.141]

LiInH4 is increased by the introduction of phenyl group(s) LiPhInH3 and LiPh2InH2 readily reduce aldehydes, ketones, acid chlorides, and even esters to the corresponding alcohols. Hydroxy ketones and diketones are reduced with lithium indium hydride to give meso-diols selectively. a-Hydroxy ketones and a-diketones are reduced to meso-1,2-diols with high diastereoselectivities, whereas the selectivities of /3-hydroxyketones and /3-diketones are less satisfactory.365... [Pg.714]

Calixarene esters are easily available by alkylation with ethyl bromoacetate and are often used as starting materials for the introduction of chiral groups at the narrow rim. Their aminolysis by chiral amines led to chiral calixarene derivatives in high yields. Water soluble calix[4]arene amino acid derivatives 9a,b obtained in this way, were successfully used as a pseudostationary phase... [Pg.145]

The introduction of alkyl groups at the a-carbon of amino acids has been accomplished most efficiently by formation of imine esters. For example, the benzaldehyde imine of ethyl glycinate can be deproton-ated and alkylated (equation 39)." Other imines also have been used." Optical activity has been introduced by using chiral palla um ligands during the alkylation step, ° chiral alcohols to form the ester, and chiral ketones to form the imine." Alkylation of 2-pyrrole acetate esters has been accomplished in a similar fashion." ... [Pg.229]

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See also in sourсe #XX -- [ Pg.313 ]



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Ester groups

Esters introduction

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