Abstract
The reactivity of the 5-arylidenerhodanine and 5-arylideneisorhodanine derivatives in reactions with dimethyl maleate was computationally studied at the DFT(M06-2X)/6–311+G(d,p) theory level. Eight stereoisomers of the reaction products were considered. The effect of the solvent was taken into account by means of the continuous and discrete models for acetic acid (PCM and three CH3COOH molecules). Aromatic stabilization of the transition states was documented by the values of HOMA, NICS(0), and NICS(1) indices. The higher reactivity of the isorhodanine derivative was associated with a relatively low activation energy, ∆Ea (15.2–22.3 kcal mol–1), which is needed to cross the TS. For the rhodanine derivative, higher values of ∆Ea (34.1–36.1 kcal mol–1) were obtained. The reactivity was also studied from the perspective of the frontier molecular orbitals, the energy gaps between the HOMO and LUMO, the flux of electron density, the Fukui functions, f+(r), f−(r), and f0(r), and the global indexes defined in the conceptual DFT, i.e., the electronic chemical potential, chemical hardness, global electrophilicity, and empirical nucleophilicity index.
Highlights
Many researchers involved in the synthesis of organic compounds are focused on heterocyclic systems
This study focused on the reaction of 5-arylidenerhodanine and 5-arylideneisorhodanine derivatives with dimethyl maleate (DMm), which were studied in both the gas phase and in solution
The formal mechanism assumes that DA product is formed during cycloaddition between a diene and a conjugated alkene
Summary
Many researchers involved in the synthesis of organic compounds are focused on heterocyclic systems. This study focused on the reaction of 5-arylidenerhodanine (rhodanine, Rd) and 5-arylideneisorhodanine (isorhodanine, IsRd) derivatives with dimethyl maleate (DMm), which were studied in both the gas phase and in solution.
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