In this study, (LaNdSmHoY)(NbV)O (0.1 ≤ ≤ 0.4) ceramics were prepared using a high-entropy strategy via the solid-phase method. The crystal structure, microstructure, vibration modes, and phase transition were studied by X-ray diffraction, scanning electron microscopy/transmission electron microscopy (SEM/TEM), and Raman spectroscopy techniques. The phase of ceramics was confirmed to be a monoclinic fergusonite in the range of ≤ 0.28, a tetragonal scheelite was in the range of 0.3 ≤ ≤ 0.32, a complex phase of tetragonal scheelite, and zircon was observed in the ceramics when ≥ 0.35. A zircon phase was also detected by TEM at = 0.4. The ceramic at = 0.25 exhibited outstanding temperature stabilization with ε = 18.06, × = 56,300 GHz, and τ = -1.52 ppm/°C, while the = 0.2 ceramic exhibited a low dielectric loss with ε = 18.14, × = 65,200 GHz, and τ = -7.96 ppm/°C. Moreover, the permittivity, quality factor, and the temperature coefficient of resonance frequency were related to the polarizability, packing fraction, density, and the temperature coefficient of permittivity caused by phase transition. This is an effective method to regulate near-zero τ by the synergism of the high-entropy strategy and substituting Nb with V in LnNbO ceramics.
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