Amide interchange reaction

Amide interchange reactions of the type represented by reaction 3 in Table 5.4 are known to occur more slowly than direct amidation nevertheless, reactions between high and low molecular weight polyamides result in a polymer of intermediate molecular weight. The polymer is initially a block copolymer of the two starting materials, but randomization is eventually produced. 

American Society for Testing and Materials (ASTM), 242 Amic acid ammonium salt, polyimide cyclization via, 305 Amic acid formation, 301 Amidation reaction scheme, 151 Amide-amide interchange reaction, 158 Amide concentration, in polyamides, 139-141... 

Similar interchange processes may occur in other condensation polymers under suitable conditions. There is ample evidence in the literature on polyamides, and on monomeric amides as well, for the occurrence of the amine-amide interchange reaction (II)... 

Structurally characterized heterobimetallic Ln/Al complexes bearing donor-functionalized dianionic diamido ligands of the types [NNN]2" and [NON]2- were obtained from [amide]- [alkyl] (Scheme 52) or [aluminate] [amide] interchange reactions (Scheme 53). 

Many commercial nylon copolymers are also formed by melt mixing different nylons. Amide interchange reactions occur at melt conditions. Atfirstblock copolymers form, but prolonged heating and stirring results in formation of random copolymers. Nylon copolymers are also prepared directly from mixed monomers. 

Undergoes amide interchange reactions (broadened by incorporation of multifunctional units)... 

Besides the amide interchange reaction shown above, propagation may also involve reaction of amine and carboxy end-groups ... 

Another type of adventitious block polymer formation occurs in the partial inter-randomization in the melt of mixtures of homopolymers such as polyesters and polyamides which can undergo ester-ester, amide-amide or ester-amide interchange reactions. 

Copolymers. There are two forms of copolymers, block and random. A nylon block copolymer can be made by combining two or more homopolymers in the melt, by reaction of a preformed polymer with diacid or diamine monomer by reaction of a complex molecule, eg, a bisoxazolone, with a diamine to produce a wide range of multiple amide sequences along the chain and by reaction of a diisocyanate and a dicarboxybc acid (193). In all routes, the composition of the melt is a function of temperature and more so of time. Two homopolyamides in a moisture-equiUbrated molten state undergo amide interchange where amine ends react with the amide groups. 

The dimethyl ester of a carboxy-terminated diamide is reacted with 1,2-ethanediol in the conditions of PBT synthesis. The amide functions are unaffected while the hydroxy-ester interchange reaction proceeds to the formation of an alternating copolyesteramide (Scheme 2.60). The procedures given below are reproduced from ref. 430. (Copyright 1997 Elsevier Science Ltd, with permission of the copyright owner.)... 

Estane VC products, 201 Ester-amide copolymers, 146, 147 Esterases, 82 Esterification, direct, 63 Ester interchange catalysts, 71 Ester interchange reactions, 31, 62-63,... 

The amino interchange reaction is another method commonly used for preparing phosphinous amides [67] (Scheme 9). The low boiling points of di-methylamine and diethylamine allow their displacement from Ar,AT-dimethyl and AT,iV-diethyl phosphinous amides, respectively, by other less volatile amines, leading to new members of the same class. High reaction temperatures are nevertheless required. 

Hydrolysis of Copolyamide-esters (CPAEs) by Lipase (jj,). CPAEs were synthesized by the amide-ester interchange reaction between polyamide and polyester. The length of the polyamide blocks was measured after hydrolysis of ester bonds in CPAE by alkali at 30 C. The infrared spectra after hydrolyzing ester bonds on CPAEs showed that the ester bonds were almost completely removed. The molecular weight distribution of polyamide blocks was examined by GPC (Table II). The following samples were used CPAE-1 (reaction time for synthesis, 1 hr) and CPAE-2 (reaction time, U hr) composed of nylon 6 and PCL at a 50/50 molar ratio, CPAE-3 (reaction time, 1 hr) and CPAE-U (reaction time,... 

Isoniazide, the hydrazide of pyridine-4-carboxylic acid, is still, well over half a century after its discovery, one of the mainstays for the treatment of tuberculosis. Widespread use led to the serendipitous discovery of its antidepressant activity. This latter activity is retained when pyridine is replaced by isoxazole. The requisite ester (45-4) is obtained in a single step by condensation of the diketo ester (45-1), obtained by aldol condensation of acetone with diethyl oxalate, with hydroxylamine. One explanation of the outcome of the reaction assumes the hrst step to consist of conjugate addition-elimination of hydroxylamine to the enolized diketone to afford (45-2) an intermediate probably in equilibrium with the enol form (45-3). An ester-amide interchange of the product with hydrazine then affords the corresponding hydrazide (45-5) reductive alkylation with benzaldehyde completes the synthesis of isocarboxazid (45-6) [47]. 

A somewhat different route is used to prepare an analogue that bears additional oxygen. The sequence, in this case, starts by base-catalyzed formylation of the hydro-cinnamic acid derivative (40-1) with ethyl formate. Condensation of the product (40-2) with guanidine in this case leads to a pyrimidone (40-3), with the cyclization involving an ester-amide interchange between guanidine and the ester. Reaction of... 

There was a good agreement oft such an interpretation with kinetic measurements of sodium carbonate catalyzed polymerization (84,87,91). This idea of a simple anionic interchange reaction between an amide group and an amide anion was very attractive, because it allowed to extrapolate the possibility of macroring formation by a simple building-in of caprolactam units into the amide bond. However, basic endgroups... 

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