Abstract
The electronic structures of Ni 7O 12H 2+ 12, Ni 6ZnO 12H 2+ 12, Ni 6CuO 12H 2+ 12, and Ni 6CaO 12H 2+ 12 clusters were calculated using the DV-X? method of quantum chemistry. By analyzing the density of states, the orbital populations, the net charges, the ionization energies, the transition energies, and the electric charge density differences of the selected clusters, it was indicated that the interaction between Ni and O was enhanced by adding Zn and Cu to nickel hydroxide, and the Ni?O bond was extended. As a result, the structural stability of nickel hydroxide was improved and the cycling life of the electrode was extended. However, the addition of Ca weakened the interaction. The ionization energy was dropped and the transition energy was elevated by the doping of Zn, Cu, and Ca, and thus the transfer of electrons in electrode materials was accelerated and the electrochemical performance of nickel hydroxide electrode was improved. However, excessive Ca-doped will change the structure of nickel hydroxide and will deteriorate its electrochemical performance.
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