Reversible, Metal-Free Hydrogen Activation

Although reversible covalent activation of molecular hydrogen (H ₂ ) is a common reaction at transition metal centers, it has proven elusive in compounds of the lighter elements. We report that the compound (C ₆ H ₂ Me ₃ ) ₂ PH(C ₆ F ₄ )BH(C ₆ F ₅ ) ₂ (Me, methyl), which we derived through an unusual reaction involving dimesitylphosphine substitution at a para carbon of tris(pentafluorophenyl) borane, cleanly loses H ₂ at temperatures above 100°C. Preliminary kinetic studies reveal this process to be first order. Remarkably, the dehydrogenated product (C ₆ H ₂ Me ₃ ) ₂ P(C ₆ F ₄ )B(C ₆ F ₅ ) ₂ is stable and reacts with 1 atmosphere of H ₂ at 25°C to reform the starting complex. Deuteration studies were also carried out to probe the mechanism.