Главная – Журналы – Журнал структурной химии 2017 номер 7

The electronic structure and chemical bonding in Re₃F clusters are investigated using density functional theory (DFT) calculations. Out research results show that the ground state for the Re₃F clusters is found to be triplet state ³ with the D _{3 h} symmetry, quintet state ⁵ A ¢ with the C_s symmetry, and quintet state ⁵ with the D _{3 h} symmetry, respectively. A detailed molecular orbital (MO) analysis reveals that the Re₃F ( D _{3 h} , ³ ) dication possesses multiple (p_F and partial d_Re) aromaticity that is respectively responsible for the triangular F₃ framework and the triangular Re₃ framework in the Re₃F ( D _{3 h} , ³ ) dication. The neutral Re₃F₃ ( C_s , ⁵ A ¢) cluster possesses partial d-aromaticity that is responsible for the triangular Re₃ framework in the Re₃F₃ ( C_s , ⁵ A ¢) cluster. The Re₃F ( D _{3 h} , ⁵ ) anion possesses multiple (s and partial d) aromaticity that is responsible for the triangular Re₃ framework in the Re₃F ( D _{3 h} , ⁵ ) cluster. We also examined their hexagonal pyramidal-type Re₃F₃X⁺ ( C _{3 v} , ¹ ) (X = Li, Na, and K) and Re₃F₃Y²⁺ ( C _{3 v} , ¹ ) (Y = Be, Mg, and Ca) complexes containing the Re₃F₃ ( D _{3 h} , ¹ ) ligand to reveal that the Re₃F₃ ( D _{3 h} , ¹ ) structural unit is perfectly preserved in these Re₃F₃X⁺ ( C _{3 v} , ¹ ) and Re₃F₃Y²⁺ ( C _{3 v} , ¹ ) complexes also having the corresponding d -orbital aromatic characters.