Herein, the configurations and intrinsic electronic properties of heteronuclear transition metal dioxide carbonyl anions NiTiO(CO) ( = 2-4) in the gas phase were investigated using mass spectrometry coupled anionic photoelectron spectroscopy, calculations, and simulated density-of-state (DOS) spectra. The results clearly show that the binding of electrons is enhanced by the addition of CO. The ground state structures of NiTiO(CO) ( = 2-4) are characterized to show that three transition metal atoms (one Ti atom and two Ni atoms) forming a quasi-line is favored. The interaction between Ni and C becomes weaker as the cluster size increases. The natural electron configuration shows that the extra electron is enriched on O atoms attached to Ti, and there is strong interaction between Ti and O atoms. This work gives significant insight into the configuration and electronic structures of nickel-titanium dioxide carbonyl anions, which has potential application in adsorption of carbon monoxide on the surfaces/interfaces of alloys.
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| http://dx.doi.org/10.1039/d2ra07918f | DOI Listing |
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