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Substituent effects on cation−π interactions have been quantified using a variety of Φ−X···M+ complexes where Φ,X, and M+ are the π-system, substituent, and cation, respectively.The cation−π interaction energy, EM+, showed a strong linear
correlation with the molecular electrostatic potential (MESP) based measure of the substituent effect, ΔVmin (the difference between the MESP minimum (Vmin) on the π-region of a substituted system and
the corresponding unsubstituted system). This linear relationship is EM+ = CM+(ΔVmin) + EM+′ where CM+ is the reaction constant and
EM+′ is the cation−π interaction energy of the unsubstituted complex. This relationship is similar to the Hammett equation and
its first term yields the substituent contribution of the cation−π interaction energy. Further, a linear correlation between CM+ and EM+′ has been established, which facilitates the prediction of CM+ for
unknown cations. Thus, a prediction of EM+ for any Φ−X···M+ complex is achieved by knowing the values of EM+′ and ΔVmin. The
generality of the equation is tested for a variety of cations (Li+, Na+, K+, Mg+, BeCl+, MgCl+, CaCl+, TiCl3 +, CrCl2 +,NiCl+, Cu+,ZnCl+, NH4+, CH3NH3+, N(CH3)4+, C(NH2)3
+), substituents (N(CH3)2, NH2, OCH3, CH3, OH, H, SCH3, SH, CCH, F, Cl,COOH, CHO, CF3, CN, NO2), and a large number of π-systems. The tested systems also include multiple substituted π-systems,viz. ethylene, acetylene, hexa-1,3,5-triene, benzene, naphthalene, indole, pyrrole, phenylalanine, tryptophan, tyrosine, azulene,pyrene, [6]-cyclacene, and corannulene and found that EM + follows the additivity of substituent effects. Further, the substituent
effects on cationic sandwich complexes of the type C6H6···M+···C6H5X have been assessed and found that EM+ can be predicted
with 97.7% accuracy using the values of EM+′ and ΔVmin. All the Φ−X···M+ systems showed good agreement between the calculated and predicted EM+ values, suggesting that the ΔVmin approach to substituent effect is accurate and useful for predicting the interactive behavior of substituted π-systems with cations |
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