Keywords: 
• aluminium(III)-maltolate complexes /
• density functional theory (DFT) /
• the structures and speciation of aluminium /
• water-exchange reaction /
• toxicity mechanism

Abstract: The following studies were carried out at B3LYP/6-311+G(d,p) level by density functional theory: (1) Ten possible configurations of 1:1/1:2/1:3 Al-maltolate complexes were optimized and their static structural properties, NPA charges and energies were obtained. The ²⁷Al NMR/¹H NMR chemical shifts, ultraviolet spectral data and infrared absorptions of four isomers of Al(ma)₃ were calculated and found to be corresponding with experimental results reported by literatures, which proved the applicability of the density functional theory. (2) Nine possible pathways of water-exchange reactions of 1:1/1:2 Al-maltolate complexes were simulated. The logarithm values of water-exchange rate constants log k_ex (s^-1) of three sites were 2.4 (Al(ma)(H₂O)²⁺₄(cis to ma)), 2.6 (cis-Al(ma)₂(H₂O)₂⁺(I)) and 3.0 (trans-Al(ma)₂(H₂O)₂⁺(I)) respectively, which were in good agreement with the experimental values of 2.5 (Al(ma)²⁺) and 3.3 (Al(ma)₂⁺), and the corresponding sites were regarded as the active sites. (3) The mechanism of the relationship between toxicity of Al-maltolate complexes and their different speciation was discussed.