Bifunctional starting materials

Thus to provide a route to polymer chains, it is necessary for the starting materials to be bifunctional. Choosing the synthesis of terylene (Fig. 5.1) as an example ... 

Diazirines are the cyclic isomers of the alphatic diazo compounds. Both the diaziridines and the diazirines are starting materials for the synthesis of alkyl hydrazines. 3,3-Pentamethyl-enediaziridine can be hydrolyzed quantitatively to hydrazine. Methylamine may be substituted for ammonia in the procedure resulting in l-methyl-3,3-pentamethylenediaziridine (m.p. 35-36°, yield 62% of theoretical) and then methyl hydrazine. Use of ethylenediamine leads to ethylene bis-hydrazine via a bifunctional diaziridine (m.p. 143-144°, yield 48% of theoretical). Ammonia can also be replaced by w-propylamine or cydo-hexylamine cyclohexanone by acetone. 

Suzuki cross-coupling has found applications in the preparation of specialty polymers, too. Rigid rod polymers may have very useful properties (the well-known Kevlar, poly(p-phenyleneterephtalamide) belongs to this family, too) but they are typically difficult to synthetize, characterize and process. Such materials with good solubility in organic solvents [38] or in water [39] were obtained in the reactions of bifunctional starting compounds under conventional Suzuki conditions with [Pd(PPh3)4] and [Pd(TPPMS)3] catalysts, respectively (Scheme 6.15). 

In the research aiming at the application of the addition reaction, Pringle and co-workers found that bifunctional phosphine starting materials like H2PCH2CH2PH2 spontaneously react with formaldehyde in the absence of the catalyst, forming water-soluble chelating phosphines [9]. 

The cobalt-catalyzed synthesis is also applicable to bifunctional nitriles [Eq.(20)]. The starting materials containing different bridging groups afford the bis(2-pyridyl) derivatives. The reaction proceeds stepwise in the... 

Cho et al. describes an alternative synthesis (Scheme 20) of the 2,5 DKP scaffold 92 = 123 via a bifunctional dipeptide 120, an aldehyde 121, and an isocyanide 122 [42]. These commercially available starting materials were added in equimolar amounts to trifluoroethanol at 40°C under nitrogen. The reaction was brought to room temperature and allowed to complete. The standard Ugi workup was used followed by column chromatography. Yields were shown in the range of 21-87%. When this reaction was done in a microwave, time taken for the reaction to complete was decreased significantly and yields increased by a factor of 4. The substitution pattern of this and the previously described (in Scheme 15) are identical however, the reactions use different types of starting materials, for example, dipeptide vs. N- and C-protected amino acids. Thus different stereochemical outcomes can be expected for the two syntheses. 

In principle, bifunctional aldehydes should be able to engage in twofold enzymatic aldol additions to both of their acceptor carbonyls in a fashion to be classified as a tandem reaction, that is, without the need for isolation of intermediates. Depending on the specificity of the enzyme used and on the functionalization in the starting material, the isomeric constitution as well as the absolute and relative stereochemistry should be deliberately addressable. Therefore, we engaged in a program to evaluate the scope and the Hmitations of such two-directional chain elongation processes for the construction of extended poly functional molecules [36]. 

In the course of O-alkylation with triethyloxonium tetrafluoroborate, the lactim ethers of 1,4-dihydro-3(2//)-isoquinoIinones were obtained (75JMC395). These are useful starting materials for reactions with amines resulting in 1,4-dihydro-3-isoquinolylamines (85EUP139296). By means of bifunctional amines, further condensed hetero-ring compounds could be synthesized (73JMC633). 

In the Phillips neohexene process147 2,4,4-trimethyl-2-pentene (8) is converted by cleavage with ethylene to neohexene (9) used in the production of a perfume musk. The starting material is commercial diisobutylene. Since it is a mixture of positional isomers (2,4,4-trimethyl-2-pentene and 2,4,4-trimethyl-l-pentene) and the latter (7) participates in degenerative metathesis, effective utilization of the process requires the isomerization of 7 into 8. A bifunctional catalyst system consisting of an isomerization catalyst (MgO) and a heterogeneous metathesis catalyst is employed 131... 

Enantiopure, bifunctional acyloins (a-hydroxy ketones) are versatile intermediates in natural product synthesis (also see Sect. 2.3, Fig. 11). In nature, the formation of a-hydroxy ketones is efficiently catalyzed by thiamine diphosphate-dependent enzymes transketolases, decarboxylases, and other lyases, such as BALs. A great portfolio of biotransformations, especially with benzaldehyde derivatives as starting materials, were realized [204]. 

This plastic includes a large group of polyaddition polymers which are formed through the reaction of bifunctional or trifunctional alcohols with di- or polyisocyanates. By varying the starting materials, linear as well as crosslinked macromolecules with correspondingly different properties are formed. Alcohols with three functional groups and/or triisocyanate are used to make crosslinked polyurethane elastomers (PUR). 

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