Crystal structure and dielectric properties of germanate melilites Ba2MGe2O7 (M?=?Mg and Zn) with low permittivity

Two melilite-structured ceramics, Ba₂MgGe₂O₇ and Ba₂ZnGe₂O₇, were fabricated using the simple solid-state sintering route and their microwave dielectric properties were reported for the first time. Rietveld refinements revealed that both ceramics crystallized in a tetragonal system with a space group P-42₁m. In contrast to Ba₂MgGe₂O₇ that was single phase in the whole sintering range, Ba₂ZnGe₂O₇ exhibited a second phase BaZnGeO₄ which was confirmed by SEM and Raman analysis. The sintering temperature could optimize the relative density and dielectric properties. Dense Ba₂MgGe₂O₇ and Ba₂ZnGe₂O₇ ceramics could be obtained at 1280?°C and 1180?°C with low relative permittivity(ε_r) of 7.76 and 9.0, high quality factor (Q?×?f) of 20,700 and 13,950?GHz, and negative temperature coe?cient of resonant frequency (τ_f) of ?55 and ?75?ppm/°C, respectively. Their differences in microwave dielectric properties were analyzed based on ionic polarizability and packing fraction. The thermal stability of Ba₂MgGe₂O₇ was tuned through the solid solution formation with TiO₂ and the τ_f value was adjusted successfully.