[摘要] Alkaline earth metal vanadates have drawn attention because of their potential applications in electro-chemical devices. Here, Na2CaV4O12 was prepared at extremely low temperatures (350-550 degrees C) and showed a semiconductor behavior with a bandgap of 2.92 eV. A phase transition from P4/nbm to P (4) over bar b2 occurred at 510 degrees C was identified by an in-situ XRD upon heating, where the 16 n site for oxygen atoms in the P4/nbm phase evolves into two distinguishable 8i sites in the P (4) over bar b2 phase. Ionic conduction in Na2CaV4O12 at elevated temperatures was reported for the first time in the present work. A strong correlation between ionic conductivity and phase structure of Na2CaV4O12 is observed. The charged carriers are mainly sodium ions for the low-temperature P4Inbm phase, while mixed conduction contributed by sodium ions and oxide ions happened in the transformed phase. Bond valence-based energy landscape calculations disclosed a two-dimensional interstitial diffusion mechanism for Na+ ions in the Na2Ca-layers, as well as a two-dimensional diffusion mechanism for oxide ions in the V4O12-layers. The novel semiconductor ceramic would have potential applications in all-solid sodium ions batteries or solid oxide fuel cells as electrolytes. (C) 2021 Elsevier B.V. All rights reserved.