Novel Bonding Chemistries

Efavirenz (1) is the second NNRTI development candidate at Merck. Prior to the development of 1, we worked on the preparation of the first NNRTI development candidate 2 [2]. During synthetic studies on 2, we discovered and optimized an unprecedented asymmetric addition of an acetylide to a carbon-nitrogen double bond. The novel asymmetric addition method for the preparation of 2 also provided the foundation for the process development of Efavirenz . Therefore, in this chapter we will first discuss chemistries for the preparation of 2 in two parts process development of large scale synthesis of 2 and new chemistries. Then, we will move into process development and its chemistries on Efavirenz . 

Herrmann WA, Brossmer C, Reisinger CP, Riermaier T, Ofele K, Beller M (1997) Coordination chemistry and mechanisms of metal-catalyzed C-C coupling reactions. Part 10. Palladacycles efficient new catalysts for the Heck vinylation of aryl halides. Chem Eur J 3 1357-1364 Iyer S, Jayanthi A (2001) Acetylferrocenyloxime palladacycle-catalyzed Heck reactions. Tetrahedron Lett 42 7877-7878 Iyer S, Ramesh C (2000) Aryl-Pd covalently bonded palladacycles, novel amino and oxime catalysts di- x-chlorobis(benzaldehydeoxime-6-C,AT)dipalla-dium(II), di- x-chlorobis(dimethylbenzylamine-6-C,A)dipalladium(II) for the Heck reaction. Tetrahedron Lett 41 8981-8984 Jeffery T (1984) Palladium-catalysed vinylation of organic halides under solid-liquid phase transfer conditions. J Chem Soc Chem Commun 1287-1289 (b) idem,... 

Many of these problems have been resolved or minimized through developments in the last two decades. This section discusses key modem trends, including high-purity silica, hybrid particles, and novel bonding chemistries, and describes their impacts on column performance. The benefits of Fast LC and micro LC columns are also discussed with their salient applications. 

Novel bonded phases with improved bonding chemistries... 

R. Tacke, Recent Results in Bioorganosilicon Chemistry Novel Sila-Drugs and Microbial Transformations of Organosilicon Compounds , in Organosilicon and Bioorganosilicon Chemistry Structure, Bonding, Reactivity and Synthetic Application (Ed. H. Sakurai), Ellis Horwood, Chichester, 1985, pp. 251-262. 

The silica-based SEC packings which are currently being employed were Introduced on the market in 1980 and there has since been very little improvement In their properties in terms of pore size distribution, particle size etc. Now, initiated by theoretical Investigations of the resolution of SEC columns, a new family of SEC packings Is beginning to be produced and marketed. The new packings are characterized by a particle size smaller than 5 / m, adequate porosity, and superior bonding chemistry. The Bio-Series 6F 250 column from DuPont de Nemours Is a typical example. However, the performance - with reference to resolution, analysis time and peak capacity — of this novel material has not yet been evaluated. 

Methylchlorodisilanes are by-products of the dkect-process residue, commonly called high boiling point residue or simply residue, and are formed in about 4% of the total (CH2)2SiCl2 produced, which in 1994 was about 30,000 tons per year. Disilanes are key constituents of the residue, and novel reactions forming Si—Cl bonds have been described (44,45). Some chemical reactions of dkect-process disilanes are shown in Figure 2. Cleavage chemistry of Si—Si compounds with HCl practiced industrially has also been described (47). 

X-ray structural studies have played a major role in transforming chemistry from a descriptive science at the beginning of the twentieth century to one in which the properties of novel compounds can be predicted on theoretical grounds. When W.L. Bragg solved the very first crystal structure, that of rock salt, NaCl, the results completely changed prevalent concepts of bonding forces in ionic compounds. 

Considerably less is known about the chemistry of palladium and platinum 1,1-dithio complexes. Of late, there has been only one report that dealt with the synthesis of a large number of palladium dithiocar-bamates 392). Twenty-five yellow palladium dithiocarbamate complexes were obtained by reaction of PdCla with NaR2dtc in methanol solution. Several other reports have appeared in which a few dithiocarbamate complexes of palladium were synthesized. Thus, the novel [Pd (OH)2dtc 2], which is soluble in water, was isolated 393). The synthesis of optically active palladium(II) complexes of AT-alkyl-a-phen-ethyldithiocarbamates, similar to (XXIV), via the reaction between the optically active amine, CS2, and PdCl2, has been described. From ORD and CD spectra, it has been established that the vicinal contribution of a remote, asymmetric carbon center could give rise to optical activity of the d—d transitions of palladium 394). Carbon disulfide has been shown to insert into the Pt-F bond of [PtF(PPh3)3]HF2, and X-ray studies indicated the structure (XXIX). 

Indeed, these reactions proceed at 25 °C in ethanol-aqueous media in the absence of transition metal catalysts. The ease with which P-H bonds in primary phosphines can be converted to P-C bonds, as shown in Schemes 9 and 10, demonstrates the importance of primary phosphines in the design and development of novel organophosphorus compounds. In particular, functionalized hydroxymethyl phosphines have become ubiquitous in the development of water-soluble transition metal/organometallic compounds for potential applications in biphasic aqueous-organic catalysis and also in transition metal based pharmaceutical development [53-62]. Extensive investigations on the coordination chemistry of hydroxymethyl phosphines have demonstrated unique stereospe-cific and kinetic propensity of this class of water-soluble phosphines [53-62]. Representative examples outlined in Fig. 4, depict bidentate and multidentate coordination modes and the unique kinetic propensity to stabilize various oxidation states of metal centers, such as Re( V), Rh(III), Pt(II) and Au(I), in aqueous media [53 - 62]. Therefore, the importance of functionalized primary phosphines in the development of multidentate water-soluble phosphines cannot be overemphasized. 

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