Ambident nucleophilics

This equation, when applied to an ambident nucleophile with nucleophilic centers 1 and 2, becomes... 

The equation does not take into account such pertubation factors as steric effects, solvent effects, and ion-pair formation. These factors, however, may be neglected when experiments are carried out in the same solvent at the same temperature and concentration for an homogeneous set of substrates. So, for a given ambident nucleophile the rate ratio kj/kj will depend on A and B, which vary with (a) the attacked electrophilic center, (b) the solvent, and (c) the counterpart cationic species of the anion. The important point in this kind of study is to change only one parameter at a time. This simple rule has not always been followed, and little systematic work has been done in this field (12) stiH widely open after the discovery of the role played by single electron transfer mechanism in ambident reactivity (1689). 

The problem is more complicated when the ambident nucleophile. 2-aminothiazole, reacts with an ambident electrophilic center. Such an example is provided by the reaction between 2-amino-5-R-thiazole and ethoxycarbonyl isothiocyanate (144), which has been thoroughly studied by Nagano et al. (64, 78, 264) the various possibilities are summarized in Scheme 95. At 5°C, in ethyl acetate, the only observed products were 145a, 148. and 150. Product 148 must be heated to 180°C for 5 hr to give in low yield (25%) the thiazolo[3.2-a]-s-tnazine-2-thio-4-one (148a) (102). This establishes that attack 1-B is probably not possible at -5°C. When R = H the percentages of 145a. 148. and 150 are 29, 50, and 7%, respectively. These results show that ... 

Hydroxyl Group. Reactions of the phenohc hydroxyl group iaclude the formation of salts, esters, and ethers. The sodium salt of the hydroxyl group is alkylated readily by an alkyl hahde (WiUiamson ether synthesis). Normally, only alkylation of the hydroxyl is observed. However, phenolate ions are ambident nucleophiles and under certain conditions, ring alkylation can also occur. Proper choice of reaction conditions can produce essentially exclusive substitution. Polar solvents favor formation of the ether nonpolar solvents favor ring substitution. 

Molecules that possess more than one nucleophilic si are referred to as ambident nucleophiles. Sn2 reactioi involving these nucleophiles may lead to mixtures i products. For example, nucleophilic attack by nitrite c methyl bromide gives both nitromethane and methyl nitrit... 

Other possible ambident nucleophiles include cyanii anion (CN ), methyl sulfinate anion (CH3SO2 ), ar acetone enolate (CH3COCH2 ). Identify the most electro rich atom(s) in each anion (based on charges alone), ar indicate the major product that should result from an S, reaction with methyl bromide at this atom(s). 

Can the ambident nucleophilicity of any of these anioi be explained solely on electrostatic grounds Solely ( orbital overlap grounds Explain your reasoning. 

Palladium(0)-catalyzed allylation of ambident nucleophilic aromatic heterocycles 96AHC(66)73. 

Since the cyanide anion is an ambident nucleophile, isonitriles R—NC may be obtained as by-products. The reaction pathway to either nitrile or isonitrile can be controlled by proper choice of the counter cation for the cyanide anion. 

Amberlyst resin 538 Amberlyst-15 (H+) 762 f. ambident electrophile 456, 478 ambident nucleophile 78 amides... 

In a method for propargylating an alkyl halide without allylic rearrangement, the halide is treated with lithio-l-trimethylsilylpropyne (122) which is a lithium compound protected by an SiMca group.Attack by the ambident nucleophile... 

The cyanide ion is an ambident nucleophile and isocyanides may be side products. If the preparation of isocyanides is desired, they can be made the main products by the use of silver or copper(I) cyanide (p. 459). Vinylic bromides can be converted to vinylic cyanides with CuCN, with KCN, a crown ether, and a... 

This means there are 42 entries that have the words AMBIDENT and NUCLEOPHILE somewhere in them in the titles, keywords, or index entries. We can now, if we wish, display any or all of them. But a particular entry might have these two words in unrelated contexts, for example, it might be a paper about ambident electrophiles, but which also has NUCLEOPHILE as an index term. We would presumably get fewer papers, but with a higher percentage of relevant ones, if we could ask for AMBIDENT NUCLEOPHILE, and in fact, the system does allow... 

If we ask for AMBIDENT NUCLEOPHILE without the (W), the system treats it as if we asked for AMBIDENT(W)NUCLEOPHILE, and gives the same answers. 

In a study of the attack of the ambident nucleophile ethanolamine on a series of phosphorylating agents (48) and related compounds it was observed that the proportion of O-phosphorylation increased as R and R varied in the series McaN, RO, R and as X varied in the series R2PO, CN, F, this last giving exclusive 0-phosphorylation. These results were... 

A further interesting point arises with nucleophiles which have more than one—generally two—suitable atoms through which they can attack the substrate, ambident nucleophiles ... 

Only the exo N-methylated products 156 were obtained when the ambident nucleophiles 155 were treated with NaH in THF followed by methyl iodide (Equation 23) <1997H(45)927>. 

Another premise cannot be excluded and will be investigated eventually. As in the case of cyanide ion, isothiocyanate ion may be a precursor in the biosynthesis of some marine isothiocyanates. Like cyanide, thiocyanate ion is an ambident nucleophile. Specific incorporation of this ion by a carbocationic site... 

The first most commonly used approach (path a) involves the direct interaction of AN with electrophilic reagents. In this case, the most fundamental property of AN, that is, their ability to act as ambident nucleophiles in organic reactions, is exploited. To synthesize nitronates, it is necessary that AN behave... 

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