Abstract
This study investigates the electronic configuration of titanium nitride-nickel (TiN–Ni) nanocomposites, in order to explain the high stability and activity of this hydrogenolysis catalyst. TiN–Ni is compared to a titanium oxide-nickel reference (TiO2–Ni). Strong metal–support interactions are observed between the TiN and Ni. Scanning transmission electron microscopy (STEM) and energy-dispersive X-ray spectroscopy (EDS) illustrate that the Ni distributes more homogeneously on the nitride support. Computational comparison of TiN–Ni and TiO2–Ni provides evidence of preferential Ni adsorption onto nitrogen sites of the nitride support. DFT calculations also predict a charge polarization between Ti and Ni atoms. X-ray photoelectron spectroscopy (XPS) corroborates computational analysis by revealing a suppression of surface nitride species upon deposition of Ni onto TiN. Shifts in Ti 2p and Ni 2p binding energy positions are also evident, which indicate an electronic perturbation between TiN and Ni. We conclud...
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