%0 Journal Article
%A García Fernández, Javier
%A Torres Pardo, Almudena
%A Bartolomé Vílchez, Javier
%A Martínez Casado, Ruth
%A Zhang, Qing
%A Ramírez Castellanos, Julio
%A Terasaki, Osamu
%A Cremades Rodríguez, Ana Isabel
%A González Calbet, José María
%T Influence of cation substitution on the complex structure and luminescent properties of the Zn_kIn_2O_(k+3) system
%D 2020
%@ 0897-4756
%U https://hdl.handle.net/20.500.14352/6513
%X The effect of In^(3+) substitution by Ga^(3+) or Al^(3+) on the structure and luminescent properties of Zn_7In_(2-x)M_xO_10 (M = Ga or Al; 0 <= x <= 1) oxides has been investigated by means of high spatial resolution X-ray spectroscopy and high-angle annular dark-field images, combined with magic angle spinning nuclear magnetic resonance spectroscopy. Local structural variations have been identified for the Al- and Ga-doped samples through the analysis of atomically resolved chemical maps and the identification of their structural environment within the wurtzite lattice. In3+ is distributed in a zig-zag modulation, while Al^(3+) and Ga^(3+) are located in a flat distribution at the center of the wurtzite block. Density functional theory calculations provide unambiguous evidence for the preferential flat location of Ga^(3+) and Al^(3+) associated with the different strains introduced in the structure as a result of their ionic radii. The characterization of the photoluminescence response reveals the appearance of new radiative recombination pathways for the doped materials because of the presence of new defect levels in the band gap of the Zn_7In_2O_10 structure.
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