Open AccessStructural, electronic and thermoelectric properties of SrTiO3 ceramic doped by lanthanum using first principles
Author(s) -
Akeem Adekunle Adewale,
Abdullah Chik,
Ruhiyuddin Mohd Zaki
Publication year - 2020
Publication title -
iop conference series. materials science and engineering
Language(s) - English
Resource type - Journals
eISSN - 1757-899X
pISSN - 1757-8981
DOI - 10.1088/1757-899x/957/1/012008
Subject(s) - wien2k , thermoelectric effect , materials science , lattice constant , density functional theory , seebeck coefficient , doping , electronic structure , density of states , ceramic , lanthanum , electronic band structure , condensed matter physics , band gap , local density approximation , thermodynamics , optoelectronics , computational chemistry , chemistry , composite material , inorganic chemistry , physics , diffraction , optics
The Sr 0.92 La 0.08 TiO 3 model compound was studied by means of the first-principles method grounded on the full-potential linearized augmented plane wave with the local orbital method as implement in WIEN2k. The structures, electronic and thermoelectric properties of the model compound are examined. Geometry optimization of Sr 0.92 La 0.08 TiO 3 compound structure reveals the lattice constant of 3.9451 Å, which is the same as un-doped SrTiO 3 . The direct bandgap of 2.48 eV (Γ-Γ) was measured from computed electronic band structure and its displayed density of states for Sr 0.92 La 0.08 TiO 3 sample. Transport properties were calculated using BoltzTraP code as implemented in the WIEN2k code. The results were analyzed as a function of the variable temperatures, the density of state and chemical potential. Temperature and density of state variation with transport properties are in the same trend. Chemical potential proves material as n-type via Seebeck coefficient. The thermoelectric performance ZT of 0.05 was obtained at room temperature, while maximum value of 3.79 was recorded at 1200 K.