Abstract
The enantiopure Schiff bases (R or S)-N-1-(X-C6H4)ethyl-2-hydroxy-1-naphthaldimine {X = H [(R or S)-HL1], p-CH3O [(R or S)-HL2], and p-Br [(R- or S)-HL3]} react with cobalt(II) acetate to give bis[(R or S)-N-1-(X-C6H4)ethyl-2-oxo-1-naphthaldiminato-κ2N,O]-Λ/Δ-cobalt(II) {X = H [Λ/Δ-Co-(R or S)-L1], p-CH3O [Λ/Δ-Co-(R or S)-L2], and p-Br [Λ/Δ-Co-(R or S)-L3]} (1–3), respectively. Induced Λ and Δ chirality originates at the metal center of the C2-symmetric molecule in pseudotetrahedral geometry. Differential scanning calorimetry analyses explored the thermal stability of the complexes, which undergo reversible phase transformation from crystalline solid to isotropic liquid phase for 1 and 3 but irreversible phase transformation for 2. Like other cobalt(II) complexes, compounds 1–3 exhibit a continuous ensemble of absorption and circular dichroism bands, which span from the UV to IR region and can be collected into a superspectrum. Infrared vibrational circular dichroism (IR-VCD) spectra witness the coupling between Co2+-centered low-lying electronic states and ligand-centered vibrations. The coupling produces enhanced and almost monosignate VCD spectra, with both effects being mode-dependent in terms of the A or B symmetry (in the C2 point group) and distance from the Co2+ core.
Highlights
IntroductionOur recent studies on divalent transition-metal complexes with enantiopure Schiff base ligands (R or S)-N-1-(Ar)ethylsalicylaldimine/-2-hydroxy-1-naphthaldimine (metal = Co,[19] Ni, Cu,[20,22,25] Zn, Rh(η4-cod);[27,28] Ar = C6H5, p-CH3OC6H4, p-ClC6H4, p-BrC6H4) in the context of diastereoselection and chirality induction-at-metal demonstrated the formation of a unique or major diastereomer Λ-M-R or Δ-M-S with distorted tetrahedral/square-planar geometry in the solid state (Scheme 1)
Transition-metal(II) complexes with achiral/chiral Schiff bases are of continued interest in the context of their molecular structures, variable coordination geometry, chiroptical properties, Λ versus Δ chirality induction-at-metal, and concomitantstereoselectivity.[1−18] Two bidentate Schiff base ligands can coordinate to divalent metal(II) ions (Mn, Fe, Co, Ni, Cu, and Zn) and provide nonplanar C2-symmetrical complexes with the formula M(N,O)[2] (N,O = deprotonated Schiff base) with distorted tetrahedral/square-planar geometry
The molecular structure determinations reveal that the Co ion is four-coordinated by two phenolate O and two imine N atoms from two Schiff base ligands, leading to a N2O2 coordination sphere in pseudotetrahedral geometry
Summary
Our recent studies on divalent transition-metal complexes with enantiopure Schiff base ligands (R or S)-N-1-(Ar)ethylsalicylaldimine/-2-hydroxy-1-naphthaldimine (metal = Co,[19] Ni, Cu,[20,22,25] Zn, Rh(η4-cod);[27,28] Ar = C6H5, p-CH3OC6H4, p-ClC6H4, p-BrC6H4) in the context of diastereoselection and chirality induction-at-metal demonstrated the formation of a unique or major diastereomer Λ-M-R or Δ-M-S with distorted tetrahedral/square-planar geometry in the solid state (Scheme 1) This was confirmed by X-ray structure determination, the most reliable method to assign the absolute configuration of the metal center, of a single investigated enantiopure crystal at the solid state. The limitation of this assignment is that for X-ray measurements, Received: May 19, 2021 Published: September 3, 2021
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