Etherification synthesis

ANILINES, BENZYL AMINES, AND ANALOGUES An orally active local anesthetic agent that can be used as an (intiarrhythmic agent is meobenti ne (57). Its patented synthesis starts with -hydroxyphenyl nitrile and proceeds by dimethyl sulfate etherification and Raney nickel reduction to Alkylation of -methyl-dimethylthiourea with completes l.he synthesis of meobenti ne (57). ... 

Due to the high reaction temperatures required during the last stages of these syntheses, side reactions cannot be avoided. Acetaldehyde, carboxyl endgroups, and vinyl endgroups are formed during PET and PEN synthesis. The formation of 2,2/-oxydiethylene moieties in polymer chains by etherification of hydroxyl endgroups is also a well-known side reaction of EG polyester syntheses.264 These reactions should be carefully controlled since they can exert an important influence on polymer properties such as Ts, mechanical properties, hydrolytic stability, and discoloration. 

Clay-supported heteropoly acids such as H3PW12O40 are more active and selective heterogeneous catalysts for the synthesis of MTBE from methanol and tert-butanol, etherification of phenethyl alcohols with alkanols, and alkylation of hydroquinone with MTBE and tert-butanoi (Yadav and Kirthivasan, 1995 Yadav and Bokade, 1996 Yadav and Doshi, 2000), and synthesis of bisphenol-A (Yadav and Kirthivasan, 1997). 

The original medicinal chemistry synthesis of ether 18 involved reaction of alcohol 10 with racemic imidate 17 in the presence of a catalytic amount of TfOH and furnished an approximately 1.1 1 mixture of 18 19 (Scheme 7.3) [1], We thought it worthwhile to reinvestigate this reaction with chiral imidate 67 in an effort to explore the diastereoselectivity of the etherification. 

A trifold anionic/pericyclic domino reaction was used for the synthesis of the dioxapyrrolizidine 2-655 combining a nitro aldol condensation, SN-type cyclization, SN-type etherification, and an intramolecular 1,3-dipolar cyclization as described by Rosini and coworkers (Scheme 2.148) [339]. 

Conditions employing elevated temperatures with less catalyst, a milder catalyst or without addition of catalyst, can supplant those utilizing aggressive reagents at lower temperatures. A recent example concerns a catalytic, thermal etherification that can be performed near neutrality and that produces minimal waste [41]. This represents a cleaner alternative to the traditional Williamson synthesis, in which the ether is... 

Methanophenazine 239 functions as an electron carrier in the cytoplasmic membrane. The etherification of 2-hydroxyphenazine 237 with mesylate 238 was a key step in a total synthesis of 239 <00AC(E)2470>. 

Scheme 21 shows the synthesis of a dihydrofuran derivative 86. Synthesis of this compound was described by Nam et al. [68] utilizing a furanone compound 87 synthesized by Kim et al. [61] via a similar synthetic approach as described in Scheme 17. The lactone was reduced using lithium aluminum hydride to give the diol 88 and intramolecular etherification using the Mitsunobu reaction afforded the dihydrofuran 86 in moderate yield (47%).

The ether linkage is a major structural motif found in a broad range of natural and unnatural structures. Due to the biomedical and industrial importance of these molecules, the efficient and selective construction of ether bonds has been a topic of long-standing interest. While numerous etherification processes have been developed ever since the discovery of the Williamson ether synthesis,1 an increasingly large number of examples have employed transition... 

This intramolecular etherification approach has successfully been applied to the syntheses136 of siccanin137 and clusifoliol,136 and a formal synthesis of morphine.138 Examples of tandem inter- and intramolecular etherification reactions have also been reported which convert catechol and o-aminophenol derivatives into benzodioxins (Equation (24)),139-141 benzodioxepines,142 and morpholines.139,140... 

While the notion that the alkoxides derived from aliphatic alcohols are poor nucleophiles toward 7r-allylmetal complexes has prevailed over the years, much progress made in the recent past has rendered the transition metal-catalyzed allylic alkylation a powerful method for the O-allylation of aliphatic alcohols. In particular, owing to the facility of five- and six-membered ring formation, this process has found extensive utility in the synthesis of tetrahydrofurans (THFs) (Equation (29))150-156 and tetrahydropyrans (THPs).157-159 Of note was the simultaneous formation of two THP rings with high diastereoselectivity via a Pd-catalyzed double allylic etherification using 35 in a bidirectional synthetic approach to halichondrin B (Equation (30)).157 The related ligand 36 was used in the enantioselective cyclization of a Baylis-Hillman adduct with a primary alcohol (Equation (31)).159... 

An application of copper-catalyzed propargylic etherification has been reported in the synthesis of ustiloxin D (Equation (63)).248 Here, a quaternary center was generated from the unprecedented reaction of a phenol with an ethynyl aziridine. 

Synthesis of a sugar derived allene and its intramolecular silver mediated etherification followed by ring closing metathesis has been explored for building the tricyclic framework of eunicin (Fig. 52).68... 

FIGURE 5.10 Synthesis of a polyethyleneglycol-polystyrene graft polymer by etherification of Merrifield resin using potassium tetra(oxyethylene) oxide, followed by extension of the chain by reaction of the potassium salt, which is present as the crown ether.21 In several TentaGel resins, the connecting bond is an ethyl ether that is more acid-stable than the benzyl ether. 

In conclusion, phase transfer catalyzed Williamson etherification and Wittig vinylation provided convenient methods for the synthesis of polyaromatics with terminal or pendant styrene-type vinyl groups. Both these polyaromatics appear to be a very promising class of thermally reactive oligomers which can be used to tailor the physical properties of the thermally obtained networks. Research is in progress in order to further elucidate the thermal polymerization mechanism and to exploit the thermodynamic reversibility of this curing reaction. 

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