A comprehensive study of the crystal and electronic structure of TiSeintercalated with two 3d metals, Cu and Ni, is presented. It is found that the intercalation of Cu into NiTiSeat room temperature leads to the displacement of the Ni atoms from the octahedral to tetrahedral sites with respect to the Se sublattice. This effect is explained by the charge transfer from Cu to the TiSe-derived conduction band, which makes the chemical bond of Ni with the lattice more stable. This is because the hybridization between Ni 3d and Se 4p, 4s states is stronger than that between Ni 3d and Ti 3d in mono-intercalated NiTiSe. Therefore, it is possible to control the type of the coordination of the intercalated transition metal atom by changing the concentration of doped electrons.
Electronic and crystal structure of bi-intercalated titanium diselenide CuxNiyTiSe2
Pis I;Nappini S;Bondino F;
2021
Abstract
A comprehensive study of the crystal and electronic structure of TiSeintercalated with two 3d metals, Cu and Ni, is presented. It is found that the intercalation of Cu into NiTiSeat room temperature leads to the displacement of the Ni atoms from the octahedral to tetrahedral sites with respect to the Se sublattice. This effect is explained by the charge transfer from Cu to the TiSe-derived conduction band, which makes the chemical bond of Ni with the lattice more stable. This is because the hybridization between Ni 3d and Se 4p, 4s states is stronger than that between Ni 3d and Ti 3d in mono-intercalated NiTiSe. Therefore, it is possible to control the type of the coordination of the intercalated transition metal atom by changing the concentration of doped electrons.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
