Efficient Generation of Negative Hydrogen with Bimetallic‐Ternary‐Structured Catalysts for Nitrobenzene Hydrogenation

Abstract Transition metal‐catalyzed transfer hydrogenation (TH) with in situ negative hydrogen (H − ) has received extensive attention as an alternative to conventional high‐pressure hydrogenation processes. However, the insufficient activity of hydrogen production and unclear the conversion process of hydrogenation remain a great challenge. In this work, brand new bimetallic ternary‐structured catalysts (Ru 1+n M 1 ‐TiO 2 , M=Co, Cu, Fe, Ni) were synthesized to efficiently generate H − donors from ammonia borane (AB, NH 3 BH 3 ) for nitrobenzene hydrogenation under moderate conditions. The Ru 1+n Co 1 ‐TiO 2 catalysts exhibited highest activity for hydrogen production form AB hydrolysis with a TOF value of 2716 min −1 . The Ru 1+n Co 1 ‐TiO 2 achieved >90 % yields within 3–4 hours in converting nitrobenzene to anilines using AB. Mechanistic studies revealed that the high hydrolysis activity was due to that the Ru SA and Co SA sites of the bimetallic‐ternary‐structured catalyst required the lowest energy for the activation of AB and H 2 O, respectively. Remarkably, the Co SA and Ru clusters exhibited an obvious synergistic effect in the TH process, which promoted the tandem hydrogenation of nitroaromatics. This work demonstrated an efficient approach to generate H − donor with bimetallic‐ternary‐structured catalysts in TH process and further provided new inspiration on the development of multifunctional catalysts.