Lewis base/basicity

An easy opening of the epoxide ring, as water (acidic site) and the bromine anion of the Lewis base (basic site) coordinate different parts of the epoxide. 

Substitution can take place by the S l or the 8 2 mechanism elimination by El or E2 How can we predict whether substitution or elimination will be the principal reac tion observed with a particular combination of reactants The two most important fac tors are the structure of the alkyl halide and the basicity of the anion It is useful to approach the question from the premise that the characteristic reaction of alkyl halides with Lewis bases is elimination and that substitution predominates only under certain special circumstances In a typical reaction a typical secondary alkyl halide such as iso propyl bromide reacts with a typical Lewis base such as sodium ethoxide mainly by elimination... 

Idemitsu Process. Idemitsu built a 50 t x 10 per year plant at Chiba, Japan, which was commissioned in Febmary of 1989. In the Idemitsu process, ethylene is oligomerised at 120°C and 3.3 MPa (33 atm) for about one hour in the presence of a large amount of cyclohexane and a three-component catalyst. The cyclohexane comprises about 120% of the product olefin. The catalyst includes sirconium tetrachloride, an aluminum alkyl such as a mixture of ethylalurninumsesquichloride and triethyl aluminum, and a Lewis base such as thiophene or an alcohol such as methanol (qv). This catalyst combination appears to produce more polymer (- 2%) than catalysts used in other a-olefin processes. The catalyst content of the cmde product is about 0.1 wt %. The catalyst is killed by using weak ammonium hydroxide followed by a water wash. Ethylene and cyclohexane are recycled. Idemitsu s basic a-olefin process patent (9) indicates that linear a-olefin levels are as high as 96% at C g and close to 100% at and Cg. This is somewhat higher than those produced by other processes. 

The term nucleophilicity refers to the effect of a Lewis base on the rate of a nucleophilic substitution reaction and may be contrasted with basicity, which is defined in terms of the position of an equilibrium reaction with a proton or some other acid. Nucleophilicity is used to describe trends in the kinetic aspects of substitution reactions. The relative nucleophilicity of a given species may be different toward various reactants, and it has not been possible to devise an absolute scale of nucleophilicity. We need to gain some impression of the structural features that govern nucleophilicity and to understand the relationship between nucleophilicity and basicity. ... 

Nucleophilicity roughly parallels basicity when comparing nucleophiles that have the same reacting atom. For example, OH- is both more basic and more nucleophilic than acetate ion, CH3CO2-, which in turn is more basic and more nucleophilic than H20. Since "nucleophilicity" is usually taken as the affinity of a Lewis base for a carbon atom in the Sfj2 reaction and "basicity" is the affinity of a base for a proton, it s easy to see why there might be a correlation between the two kinds of behavior. 

The 14e compound MTO readily forms coordination complexes of the type MTO-L and MTO-L2 with anionic and uncharged Lewis bases [96], These yellow adducts are typically five- or six-coordinate complexes, and the Re-L system is highly labile. Apart from their fast hydrolysis in wet solvents, MTO-L adducts are much less thermally stable then MTO itself. The pyridine adduct of MTO, for instance, decomposes even at room temperature. In solution, methyltrioxorhenium displays high stability in acidic aqueous media, although its decomposition is strongly accelerated at increased hydroxide concentrations [97, 98], Thus, under basic aqueous conditions MTO decomposes as shown in Equation (4). 

The tendency of the halogens to form chain-like polyanions that are stabilized by delocalization of the negative charge [15,34] is a basic chemical principle. Donor-acceptor interactions between Lewis-acidic Br2 and halide anions, but also with polyhalides acting as Lewis bases, give rise to the formation of a variety of homo and heteroatomic adducts. The maximum number of atoms in these chains increases with the atomic weights... 

Basicity nearly always arises from the presence of unshared electron pairs. Consequently, amines produce an alkaline reaction in aqueous solution by functioning as an electron donor (or Lewis base), withdrawing hydrogen ions from water and leaving an excess of hydroxyl ions in the solution. 

A comparison of these p/CHB values at constant pK of the bases reveals that the most important factor which determines the correlation between the structure and the hydrogen bonding ability depends on the electronegativity of the acceptor atom in the Lewis bases employed. Thus, the strength of the basicities of the oxygen compounds described above is... 

Cations at the surface possess Lewis acidity, i.e. they behave as electron acceptors. The oxygen ions behave as proton acceptors and are thus Bronsted bases. This has consequences for adsorption, as we will see. According to Bronsted s concept of basicity, species capable of accepting a proton are called a base, while a Bronsted acid is a proton donor. In Lewis concept, every species that can accept an electron is an acid, while electron donors, such as molecules possessing electron lone pairs, are bases. Hence a Lewis base is in practice equivalent to a Bronsted base. However, the concepts of acidity are markedly different. 

It has also been possible to develop macrocyclic structures for the recognition of anions7 and Lewis basic sites. There are relatively few of these, however, and their numbers reflect the generally more difficult task of arranging Lewis acids in a convergent sense vs. arranging Lewis bases in such a manner. Indeed, the special problems posed by converging carboxylic acids led our own research, and this is an account of our recent adventures in this area. 

Magnesium(II) is a milder Lewis acid than traditionally used ones such as boron(III), alumi-num(III), or titanium(IV). A characteristic feature of Mg11 is the presence of coordination sites which are occupied by Lewis bases other than counter anions. By using bidentate Lewis-basic ligands, it is therefore possible to form rigid stereochemical environments. 

The interaction of a Lewis acid with a Lewis base is a type of neutralization reaction because the acidic and basic characters of the reactants are removed. 

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). 

MePhS, Me(C6F5)S, or MeBu S] have been investigated in detail the rate constants decreased both with increased electronegativity and/or increased size of the substituent on S, with the yield increased as the size and/or basicity of the Lewis base increased.30... 

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