Quantitative Prediction of Leaving Group Orders from Aliphatic Carbon in SN2 Reactions

Sulphur/nitrogen reactivity ratios in a series of aromatic nucleophilic substitution reactions of ambident thiocyanate ion have been determined. There are profound differences from the pattern found in SN2 reactions at a saturated carbon atom. Abnormal transition states, involving interactions between entering and leaving group, are likely in the bond-breaking step of the intermediate complex in reactions of thiocyanate ion with 1-fluoro-2,4-dinitrobenzene and with 2,4- dinitrophenyl 4-toluenesulphonate. The nitro-substituted aryl thiocyanates are shown to be tri-functional electrophiles, with reactive centres at aromatic carbon, at cyanide carbon, and at sulphur. Aryl 4-toluenesulphonates are bifunctional electrophiles with reactive centres at aryl carbon and sulphonyl sulphur. The site of attack by nucleophiles depends on the nature of the nucleophile. The sulphur/nitrogen reactivity ratio of ambident SCN-, and the electrophilic reactivity of tri- and bi-functional substrates, are in most instances consistent with the Hard and Soft Acids and Bases principle. Exceptions to the principle in some instances reveal differences between the SNAr and SN2 mechanisms, and in others indicate abnormal transition states.

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Legate Ions. The Use of the Oxibase Scale to Predict Leaving Group Orders from Carbon in SN2 Reactions

Journal of the American Chemical Society ◽

10.1021/ja01091a042 ◽

1965 ◽

Vol 87 (13) ◽

pp. 3010-3011 ◽

Cited By ~ 13

Author(s):

Robert Earl Davis

Keyword(s):

Sn2 Reactions ◽

Leaving Group

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Elimination reactions. Leaving group tendencies in E2C, E2H and SN2 reactions

Tetrahedron Letters ◽

10.1016/s0040-4039(00)89817-2 ◽

1968 ◽

Vol 9 (50) ◽

pp. 5183-5188 ◽

Cited By ~ 9

Author(s):

D.J. Lloyd ◽

A.J. Parker

Keyword(s):

Sn2 Reactions ◽

Leaving Group ◽

Elimination Reactions

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SN2 Substitution Reactions at the Amide Nitrogen in the Anomeric Mutagens, N-Acyloxy-N-alkoxyamides

Australian Journal of Chemistry ◽

10.1071/ch09166 ◽

2009 ◽

Vol 62 (7) ◽

pp. 700 ◽

Cited By ~ 20

Author(s):

Katie L. Cavanagh ◽

Stephen A. Glover ◽

Helen L. Price ◽

Rhiannon R. Schumacher

Keyword(s):

Kinetic Studies ◽

Model Reaction ◽

Side Chain ◽

Carboxylate Group ◽

Amide Nitrogen ◽

Substitution Reactions ◽

Sn2 Reactions ◽

Leaving Group ◽

Rate Of Substitution

N-Acyloxy-N-alkoxyamides 1a are unusual anomeric amides that are pyramidal at the nitrogen because of bis oxyl substitution. Through this configuration, they lose most of their amide character and resemble α-haloketones in reactivity. They are susceptible to SN2 reactions at nitrogen, a process that is responsible for their mutagenic behaviour. Kinetic studies have been carried out with the nucleophile N-methylaniline that show that, like SN2 reactions at carbon centres, the rate constant for SN2 displacement of carboxylate is lowered by branching β to the nitrogen centre, or bulky groups on the alkoxyl side chain. Branching or bulky groups on the carboxylate leaving group, however, do not impact on the rate of substitution, which is mostly controlled by the pKA of the departing carboxylate group. These results are in line with computed properties for the model reaction of ammonia with N-acetoxy-N-methoxyacetamide but are in contrast to the role of steric effects on their mutagenicity.

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Absence of steric effects on the leaving group in SN2 reactions

Tetrahedron Letters ◽

10.1016/s0040-4039(00)71756-4 ◽

1961 ◽

Vol 2 (14) ◽

pp. 473-476

Author(s):

Ernest L. Eliel ◽

Rico P. Gerber

Keyword(s):

Steric Effects ◽

Sn2 Reactions ◽

Leaving Group

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σ complexes as biophysical and biochemical probes. Part III. Competitive demethylation and σ-complex formation in reaction of 4,6-dinitro-7-methoxybenzofuroxan with nucleophiles

Canadian Journal of Chemistry ◽

10.1139/v79-081 ◽

1979 ◽

Vol 57 (5) ◽

pp. 494-499 ◽

Cited By ~ 9

Author(s):

Erwin Buncel ◽

Noemi Chuaqui-Offermanns ◽

Robert Y. Moir ◽

Albert R. Norris

Keyword(s):

Complex Formation ◽

Picric Acid ◽

Spectral Characteristics ◽

Acidity Constant ◽

Nucleophilic Reaction ◽

Carbon Centers ◽

Carbonate Ion ◽

Leaving Group ◽

Aliphatic Carbon ◽

Leaving Group Ability

4,6-Dinitro-7-methoxybenzofuroxan (4) reacts with MeONa–MeOH or with Et2NH competitively by σ-complex formation and demethylation, by nucleophilic reaction at the aromatic and aliphatic carbon centers, respectively. Carbonate ion in CHCl3 in the presence of 18-crown-6 polyether also results in rapid demethylation. The facile leaving group ability in these SN2 displacements is consistent with the large acidity constant of 4,6-dinitro-7-hydroxybenzofuroxan (pKa ca. −3.7), i.e., 4pK units stronger than picric acid. Some unusual features exhibited in the nmr spectral characteristics of the σ-complexes are accounted for in terms of stereoelectronic effects.

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