Lewis bases, cyclic

Ethers form Lewis acid Lewis base complexes with metal ions Certain cyclic polyethers called crown ethers, are particularly effective m coor dinatmg with Na" and K" and salts of these cations can be dissolved m nonpolar solvents when crown ethers are present Under these conditions the rates of many reactions that involve anions are accelerated... 

Lithium tetrafluoroborate yields only poorly conducting solutions with all solvents. It is unstable [61] and also leads to polymerization with cyclic ethers initiated by the corresponding Lewis base BFj. 

Reactions of the hydrido(hydroxo) complex 2 with several substrates were examined (Scheme 6-14) [6]. The reactions are fairly complicated and several different types of reachons are observed depending on the substrate. Methyl acrylate and small Lewis bases such as CO, P(OMe)3, BuNC coordinate to the five-coordinated complex 2 affording the corresponding six-coordinate complexes. In reactions with the unsaturated bonds in dimethylacetylenedicarboxylate, carbon dioxide, phenylisocyanate indications for the addition across the O-H bond but not across the Os-OH bond were obtained. In reactions with olefins such as methyl vinyl ketone or allyl alcohol, elimination of a water molecule was observed to afford a hydrido metalla-cyclic compound or a hydrido (ethyl) complex. No OH insertion product was obtained. 

Summary of the Relationship between Diastereoselectivity and the Transition Structure. In this section we considered simple diastereoselection in aldol reactions of ketone enolates. Numerous observations on the reactions of enolates of ketones and related compounds are consistent with the general concept of a chairlike TS.35 These reactions show a consistent E - anti Z - syn relationship. Noncyclic TSs have more variable diastereoselectivity. The prediction or interpretation of the specific ratio of syn and anti product from any given reaction requires assessment of several variables (1) What is the stereochemical composition of the enolate (2) Does the Lewis acid promote tight coordination with both the carbonyl and enolate oxygen atoms and thereby favor a cyclic TS (3) Does the TS have a chairlike conformation (4) Are there additional Lewis base coordination sites in either reactant that can lead to reaction through a chelated TS Another factor comes into play if either the aldehyde or the enolate, or both, are chiral. In that case, facial selectivity becomes an issue and this is considered in Section 2.1.5. 

Addition of azide ion to conjugated systems can be carried out by using NaN3 and acetic acid in water (Eq. 10.18).38 Some reactions were very rapid while others took 1 to 3 days to complete. Lewis base was found to catalyze such conjugate additions of azide ion to cyclic enones in water.39... 

Other organometallic compounds of aluminum include the alkyl hydrides, R2A1H. Molecular association of these compounds leads to cyclic tetramers. When the dimeric and trimeric compounds are dissolved in a basic aprotic solvent, the aggregates separate as a result of formation of bonds between A1 and the unshared pair of electrons on the solvent molecule. Toward Lewis bases such as trimeth-ylamine, aluminum alkyls are strong Lewis acids (as are aluminum halides). 

The unusual Sn3P2Cl2 cluster 20d has been isolated in 44% yield in the form of yellow crystals (Eq. 13) (39), simply by the same reaction of Id with the stannanediyls but in the presence of SnCl2. 20d represents formally an adduct of the cyclic bis(stannanediyl) phosphandi-ide 21 and SnCl2, which coordinate to each other upon their complementary Lewis acid/Lewis base sites. 

Further synergistic enhancement of amide resonance and H-bonding occurs when both monomers can participate in two complementary H-bonds, once as a Lewis base and once as a Lewis acid. Such concerted (cooperative) pairs of H-bonds occur in the cyclic formamide dimer, as illustrated in Fig. 5.20. In this case the strength of each H-bond is further enhanced (to 6.61 kcalmol-1, about 4.7 times that of the prototype (5.31c)), the bond orders ben and bco are further shifted (to 1.384 and 1.655, respectively), and the bond lengths undergo further shifts in the... 

Reaction of the heterocubane cluster 14 (R = Ph) with (Cp Rhl2)2, a reagent that functions both as a Lewis acid (the metal center) and a Lewis base (the iodide ligands), generates the dirhodium complex 18. Complex 14 also adds to l,l-bis(diphenylphosphinoferrocene) to form the cyclic species 19.8... 

Germanium(iv) and tin(rv) compounds M(BH4)4 (M = Ge 51, Sn 52) have been synthesized by simple salt metathesis and characterized by IR spectroscopy.49 The cyclic Lewis acid/base adducts between (o-C6F4FIg)3 and [BH4]-, for example, [( -C6F4Hg)3(BFI4)2]2- 53 and [ ( -C6F4Hg)3 2(BH4)]- 54, have been characterized by IR and NMR spectroscopies.50... 

In addition to metal catalysts, organocatalysts could also be used in asymmetric cyanation reactions. Chiral Lewis bases, modified cinchona alkaloids, catalyzed asymmetric cyanation of ketones by using ethyl cyanoformate as the cyanide source (Scheme 5.34)." Similar to metal-catalyzed reactions, ethyl cyanoformate was first activated by chiral Lewis bases to form active nucleophiles. Various acyclic and cyclic dialkyl ketones were transformed into the desired products. Because of using... 

An interesting recent illustration of the Lewis base behaviour of these cyclic ligands is the formation of a bis-adduct of the pentamer cyclo-(PPh)5 with borane monomer [eqn (11.11)]. ... 

The presence of two phosphorus(III) centres in cyclodiphosphazanes offers the possibility for the coordination of one or two metal centres and, in the latter case, the cis configuration of the exocyclic substituents has been exploited for the construction of metalated macrocycles.Some representative examples of the coordination behaviour of these cyclic F-donor Lewis bases are illustrated in Figure 11.18. 

Of the cyclic olefins, norbornadiene replaces two CO groups from one Co to yield a labile complex 159, 160, 235), cyclooctatetraene replaces the axial CO ligands from all three cobalt atoms 53) and is itself replaced by other Lewis bases 330), and cyclopentadiene forms the unusual complex [95] with Co3(CO)gCMe 159,160). A few catalytic reactions were observed with methinyltricobalt enneacarbonyls including the dimerization of norbornadiene 160, 235) and the polymerization of functional olefins 312) with different Co3(CO)9CX. 

By far more is known about the UV spectra of silylene-Lewis base complexes in matrices as well as in solution. To observe silylene-Lewis base complexes in matrices, an appropriate silylene precursor, in most cases a cyclic or acyclic oligosilane, is photolyzed at low temperature in an inert hydrocarbon or noble gas matrix, which is doped with small amounts (2-5%) of the respective Lewis base. In a few cases, 2-methyltetrahydrofuran (2-MeTHF), which serves as matrix material as well as a Lewis base, is used. When a rigid matrix such as a 3-methylpentane (3-MP) or 2-MeTHF matrix is used, the formation of the silylene complexes normally requires the matrix to be annealed in order to allow the molecules to diffuse through the softening matrix. In contrast, when the silylene is generated in an a priori soft matrix,... 

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