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Gems, synthesis

The benzoic acid derivative 457 is formed by the carbonylation of iodoben-zene in aqueous DMF (1 1) without using a phosphine ligand at room temperature and 1 atm[311]. As optimum conditions for the technical synthesis of the anthranilic acid derivative 458, it has been found that A-acetyl protection, which has a chelating effect, is important[312]. Phase-transfer catalysis is combined with the Pd-catalyzed carbonylation of halides[3l3]. Carbonylation of 1,1-dibromoalkenes in the presence of a phase-transfer catalyst gives the gem-inal dicarboxylic acid 459. Use of a polar solvent is important[314]. Interestingly, addition of trimethylsilyl chloride (2 equiv.) increased yield of the lactone 460 remarkabiy[3l5]. Formate esters as a CO source and NaOR are used for the carbonylation of aryl iodides under a nitrogen atmosphere without using CO[316]. Chlorobenzene coordinated by Cr(CO)j is carbonylated with ethyl formate[3l7]. [Pg.190]

OOERING - LA FLAMME Allene Synthesis Allene synthesis from olefins via gem-dihalocyciopropanes. [Pg.99]

The synthesis of vinylaziridines through reactions between allylic carbenoid reagents and imines (i.e., Darzen-type reactions) was first reported by Mauze in 1980 [13]. Treatment of aldimines or ketimines 16 with gem-chloro(methyl)allyllithium (17) afforded N-substituted vinylaziridines 18 (Scheme 2.6). Similarly, 2,3-trans-N-diphenylphosphinyl-2-vinylaziridines 21 were prepared with good stereoselectivities (trans cis= 10 1 Scheme 2.7) by treatment of a-bromoallyllithium (20) with N-diphenylphosphinyl aldimines 19 in the presence of zinc chloride [14]. [Pg.40]

Of perhaps greater use for organic synthesis was the observation that photo-driven reactions of alkoxycarbenes with unsubstituted optically active ene carbamates [65] produced aminocyclobutanones in fair yield with high dia-stereoselectivity (Table 12) [66]. In contrast, with a gem-disubstituted ene carbamate, the syn-anti selectivity was low but high asymmetric induction a to nitrogen was observed (Eq. 16). Trans-monosubstituted ene carbamates failed to react, as did a,/J-unsaturated chromium carbene complexes. [Pg.172]

Highly uMtr-diastereofacial selective cycloaddition of isoprene (2) with 4-isopropyl-2-cyclohexenone allowed a short regiocontrolled and stereocon-trolled synthesis [13] of jS-cadinene and (y2-cadinene, Scheme 3.3). High anti-diastereofacial selectivity also occurs in the Diels-Alder reaction of optically active cyclohexenones 6-9 (Figure 3.2), readily available from the chiral pool, with open chain dienes [14-16]. Their cycloadducts are valuable intermediates in the synthesis of optically active sesquiterpenes in view of the easy conversion of the gem-dimethylcyclopropane and gem-dimethylcyclobutane in a variety of substituents. [Pg.102]

Maizels, R.M., Gems, D.H. and Page, A.P. (1993) Synthesis and secretion of TES antigens from Toxocara cants infective larvae. In Lewis, J.W. and Maizels, R.M. (eds) Toxocara and Toxocariasis Clinical, Epidemiological and Molecular Perspectives. Institute of Biology, London, pp. 141-150. [Pg.253]

The key step in the synthesis of A-ring fragment 50 [56] is the chelation-controlled addition of allylstannane 53 to aldehyde 52, which sets the C7 stereocenter and introduces the C8 gem-dimethyl moiety. Aldehyde 52 is itself prepared from 1,3-propanediol using the author s protocol for titanium-catalyzed enantioselective allylstannation [57], which sets the C5 stereocenter, followed by chelation-controlled Mukaiyama aldol addition [58] to establish the C3 stereocenter (Scheme 5.6). [Pg.115]

Gem-dibromospiropentane (620), obtained by the reaction of MCP with dibromocarbene, was used in the synthesis of BCP (3) (Scheme 90) [6a]. The reaction of the intermediate vinylidenecyclopropane 621 with a large excess of Simmons-Smith reagent gave exclusively BCP (3), but using modified Simmons-Smith procedures the [3]-triangulane (247) was also obtained in small yield (Scheme 91) [165],... [Pg.95]

Let us consider the crystal growth of the three previous compounds which have retained our attention by their high nonlinear optical susceptibilities (POM, MAP, NPP) plus an additional one R(+)N-methylidene (gem-carbethoxiphenyl) amide of 4-N-dime-thylamino- benzylidene cyanacetlc acid -AMA, of potential interest but not yet investigated from the optical point of view. We look successively into their synthesis, purification, crystal growth and characterization. [Pg.94]

This chapter is intended to highlight the synthesis and use of geminal bimetallic compounds such as gem-metallozirconocenes, but we will concentrate on the chemistry of aluminum, boron, lithium, gallium, germanium, tin, zinc, and zirconium. [Pg.231]

See other pages where Gems, synthesis is mentioned: [Pg.317]    [Pg.228]    [Pg.579]    [Pg.317]    [Pg.228]    [Pg.579]    [Pg.20]    [Pg.217]    [Pg.397]    [Pg.447]    [Pg.592]    [Pg.40]    [Pg.211]    [Pg.398]    [Pg.148]    [Pg.140]    [Pg.292]    [Pg.842]    [Pg.1263]    [Pg.137]    [Pg.189]    [Pg.247]    [Pg.125]    [Pg.66]    [Pg.296]    [Pg.538]    [Pg.975]    [Pg.515]    [Pg.119]    [Pg.187]    [Pg.7]    [Pg.159]    [Pg.93]    [Pg.152]    [Pg.477]    [Pg.524]    [Pg.174]    [Pg.230]    [Pg.230]    [Pg.231]    [Pg.231]    [Pg.233]    [Pg.235]   
See also in sourсe #XX -- [ Pg.228 ]



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GEM

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