Abstract
The results of quantum chemical calculations at the gradient-corrected density functional theory (DFT) level with the B3LYP functional of the donor-acceptor complexes R(3)E[bond]E'R' and their isomers R(2)E[bond]E'RR', where E, E' = B[bond]Tl and R, R' = H, Cl, or CH(3), are reported. The theoretically predicted energy differences between the donor-acceptor form R(3)E[bond]E'R' and the classical isomer R(2)E[bond]E'RR' and the bond dissociation energies of the E[bond]E' bonds are given. The results are discussed in order to show which factors stabilize the isomers R(3)E[bond]E'R'. There is no simple correlation of the nature of the group-13 elements E, E' and the substituents R, R' with the stability of the complexes. The isomers R(3)E[bond]'R' come stabilized by pi donor groups R', while the substituents R may either be sigma- or pi-bonded groups. Calculations of Cl(3)B[bond]BR' [R' = Cl, cyclopentadienyl (Cp), or Cp*] indicate that the Cp* group has a particularly strong effect on the complex form. The calculations show that the experimentally known complex Cl(3)B[bond]BCp* is the strongest bonded donor-acceptor complex of main-group elements that has been synthesized until now. The theoretically predicted B[bond]B bond energy is D(o) = 50.6 kcal/mol. However, the calculations indicate that it should also be possible to isolate donor-acceptor complexes R(3)E[bond]E'R' where R' is a sigma-bonded bulky substituent. Possible candidates that are suggested for synthetic work are the borane complexes (C(6)F(5))(3)B[bond]E'R' and (t)Bu(3)B[bond]E'R' (E' = Al[bond]Tl) and the alane complexes Cl(3)Al[bond]E'R' (E' = Ga[bond]Tl).
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