Z-Selectivity

A two-dimensional slice may be taken either parallel to one of the principal co-ordinate planes (X-Y, X-Z and Y-Z) selected from a menu, or in any arbitrary orientation defined on screen by the user. Once a slice through the data has been taken, and displayed on the screen, a number of tools are available to assist the operator with making measurements of indications. These tools allow measurement of distance between two points, calculation of 6dB or maximum amplitude length of a flaw, plotting of a 6dB contour, and textual aimotation of the view. Figure 11 shows 6dB sizing and annotation applied to a lack of fusion example. 

Ions accelerated out of the ion source with keV translational kinetic energies (and m/z selected with the magnetic sector) will arrive in the FFR of the instrument in several microseconds. Ions dissociating on this... 

Accumulating evidence makes it increasingly clear that there is no single dominant Wittig transition state geometry and, therefore, no simple scheme to explain cis/trans selec-tivities. The conventional betaine pathway may not occur at all, the stabilized ylides, e,g., PhsP—CH —C02Et, can be ( )- or (Z)-selective, depending on the solvent and substrate (E. Vedejs, 1988 A, B, 1990). 

In 1995, palladium-catalyzed reduction of vinylaziridines with formic acid was reported [42]. As shown in Scheme 2.26, 1,2-reduction products 95 and 1,4-products 96 were obtained in ratios depending on the reaction conditions, such as the additive, solvent, and catalyst employed. Both the E/Z selectivity of 95 and the... 

In our work with aminolysis of vinylepoxides (see Section 9.2.1.1), the substrates were routinely synthesized by SAE followed by Swern/Wittig reactions (Table 9.3, Entries 1-4) [48, 49]. This procedure is well suited for terminal olefins, but dis-ubstituted olefins can seldom be obtained with useful (E Z) selectivities. Nakata recently synthesized some advanced intermediates towards natural products in this manner (Entries 5, 6) [50, 51]. 

Lithium dibutylcuprate reacted with ( )-l, 3-butadienyl p-tosyl sulfone affording (Z)-2-octenyl p-tosyl sulfone. In the reaction of allyl ( )- and (Z)-l, 3-dibutadienyl sulfones with lithium dibutylcuprate or lithium (Z)-di(l-butenyl) cuprate, the major compound obtained was of (Z)-geometry around the 2,3-double bond, indicating that (Z)-selectivity is not so high in this reaction (56-79%)408-... 

The E/Z selectivity problem is restricted to cross metathesis and RCM leading to macrocycles (macro-RCM). Both aspects have recently been covered in reviews by Blechert et al. [8d] and by Prunet [44]. E/Z selectivity can be influenced by reaction temperature, solvent or substitution pattern of the substrate. Here, we will only discuss the influence of the precatalyst. 

Olefin metathesis of vinylboronates [102] and allylboronates [103, 104] has been investigated over the past few years because organoboranes are versatile intermediates for organic synthesis. Cross metathesis of vinylboronate 108 and 2-butene 109, for example, yields the boronate 110, which can be converted to the corresponding vinyl bromide 111 with high Z selectivity. Vinyl iodides can be obtained analogously. It should be noted that vinyl bromides and vinyl... 

Bent ansa-metallocenes of early transition metals (especially Ti, Zr, Hf) have attracted considerable interest due to their catalytic activity in the polymerization of a-olefins. Ruthenium-catalyzed olefin metathesis has been used to connect two Cp substituents coordinated to the same metal [120c, 121a] by RCM or to connect two bent metallocenes by cross metathesis [121b]. A remarkable influence of the catalyst on E/Z selectivity was described for the latter case while first-generation catalyst 9 yields a 1 1 mixture of E- and Z-dimer 127, -127 is the only product formed with 56d (Eq. 19). 

Scheme 28 (Z)-selective RCM-based macrocyclization in the penultimate step in the total synthesis of halicholactone (151) [82]...

An obvious drawback in RCM-based synthesis of unsaturated macrocyclic natural compounds is the lack of control over the newly formed double bond. The products formed are usually obtained as mixture of ( /Z)-isomers with the (E)-isomer dominating in most cases. The best solution for this problem might be a sequence of RCAM followed by (E)- or (Z)-selective partial reduction. Until now, alkyne metathesis has remained in the shadow of alkene-based metathesis reactions. One of the reasons maybe the lack of commercially available catalysts for this type of reaction. When alkyne metathesis as a new synthetic tool was reviewed in early 1999 [184], there existed only a single report disclosed by Fiirstner s laboratory [185] on the RCAM-based conversion of functionalized diynes to triple-bonded 12- to 28-membered macrocycles with the concomitant expulsion of 2-butyne (cf Fig. 3a). These reactions were catalyzed by Schrock s tungsten-carbyne complex G. Since then, Furstner and coworkers have achieved a series of natural product syntheses, which seem to establish RCAM followed by partial reduction to (Z)- or (E)-cycloalkenes as a useful macrocyclization alternative to RCM. As work up to early 2000, including the development of alternative alkyne metathesis catalysts, is competently covered in Fiirstner s excellent review [2a], we will concentrate here only on the most recent natural product syntheses, which were all achieved by Fiirstner s team. 

Scheme 90 Fiirstner s total synthesis of epoC (237c) via sequential RCAM of diyne 450 and (Z)-selective partial hydrogenation [187]...

Compound Ref. Crystal Phase Space group Z Selected intermolecular distances [A]... 

Keywords Chemical orbital theory, Cw-stability, Cyclic conjugation. Disposition isomers. Diradicals, Donor-acceptor, Electron delocalization, Geminal bond participation, Inorganic heterocycles. Ring strain. Orbital phase. Orbital phase continuity. Polarization, Preferential branching. Reactivity, Selectivity, Stability, Tautomerism, Z-selectivity... 

Scheme 40 Z-Selectivity of ene reactions of allylsilanes with singlet oxygen...

The Z-selectivity is understood in terms of the geminal bond participation. The C-Si bond, which is more electron-donating than the C-H bond, occupies the Z-position. 

The catalyst deactivates, but after four runs the conversion is still significantly higher (> 99% after 2 h) as compared with the uncatalyzed reaction. Moreover, the Z-selectivity in all four runs is higher than 80%, whereas in the uncatalyzed reaction, it is typically only 30% (Z). The fact that the solid powder can be used several times furthermore supports the fact that the reaction mechanism is heterogeneous. The reason for the deactivation is unknown. A disadvantage of the nanoparticles is the difficulty of separation. Thus, in some cases the particles form col-... 

It also explains the /Z selectivity of products at low conversions (kinetic ratio. Scheme 19). In the case of propene, a terminal olefin, E 2-butene is usually favoured (E/Z - 2.5 Scheme 19), while Z 3-heptene is transformed into 3-hexene and 4-octene with EjZ ratios of 0.75 and 0.6, respectively, which shows that in this case Z-olefins are favoured (Scheme 20). At full conversion, the thermodynamic equilibriums are reached to give the -olefins as the major isomers in both cases. For terminal olefins, the E olefin is the kinetic product because the favoured pathway involved intermediates in which the [ 1,2]-interactions are minimized, that is when both substituents (methyls) are least interacting. In the metathesis of Z-olefins, the metallacyclobutanes are trisubstituted, and Z-olefins are the kinetic products because they invoke reaction intermediates in which [1,2] and especially [1,3] interactions are minimized. 

CM has, in most cases, a good to excellent ii-selectivity. This is primarily due to steric reasons in the metallacycle intermediate of the metathesis. The high ii-selectivity of the CM makes it an ideal method for the stereocontrolled synthesis of stilbenes [152], while there is still no highly Z-selective Ru-based catalyst known [153]. 

Ru4 bears a Me and Ru5 a Et moiety instead of one of the mesityl-residues leads, in the synthesis of 98, to a higher Z-selectivity than HII. In contrast, the use of Ru5 for CM with acroleine 100, which usually reacts with relatively high Z-selectivities, results in higher -selectivity than HIT (Scheme 3.15). 

In contrast to LDA, LiHMDS favors the Z-enolate.14 Certain other bases show a preference for formation of the Z-enolate. For example, lithium 2,4,6-trichloroanilide, lithium diphenylamide, and lithium trimethylsilylanilide show nearly complete Z-selectivity with 2-methyl-3-pentanone.15... 

The Z-selectivity seems to be associated primarily with reduced basicity of the amide anion. It is postulated that the shift to Z-stereoselectivity is the result of a looser TS, in which the steric effects of the chair TS are reduced. 

Several modified phosphonoacetate esters show selectivity for the Z-enoate product. Trifluoroethyl,256 phenyl,257 2-methylphenyl,258 and 2,6-difluorophenyl259 esters give good Z-stereoselectivity with aldehydes. The trifluoroethyl esters also give Z-selectivity with ketones.260... 

Several other methodologies have been developed for control of the stereoselectivity of Wadsworth-Emmons reactions. For example, K2C03 in chlorobenzene with a catalytic amount of 18-crown-6 is reported to give excellent Z-selectivity.261 Another group found that use of excess Na+, added as Nal, improved Z-selectivity for 2-methylphenyl... 

The coupled fragments were then converted to a vinyl iodide. The key steps were a Z-selective Lindlar reduction and iodinolysis of the vinyl silane, which was done using NIS in acetonitrile (sequence F-l to F-ll). 

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