Supramolecular interactions and structural transformations in the metal-organic sorbent-acetone nanoreactor system

By the ¹H NMR and Raman spectroscopy data it is shown that in the porous inclusion compound of Zn₂(C₈H₄O₄)₂[(N₂(CH₂)₆))]·n(CH₃)₂CO (n ≈ 0–4.7) acetone molecules exist in two structural forms: ketonic (CH₃)₂CO, for which the ¹H NMR chemical shift value is δ^ket = 0.8 ppm, and enolic CH₃C(O)=CH₂, for which δ^en(OH) = 11 ppm, δ^en(CH₂) = 8.9 ppm, and δ^en(CH₃) = 1.6 ppm are found, the average value over three proton sites being <δ^en> = 5.6 ppm. A sharp difference in chemical shift values for the keto and enol forms of acetone in the inclusion compounds can be assigned to the effect of structural chemical conditions in two types of adsorption centers.