Scalable Synthesis of High-Quality Ultrathin Ferroelectric Magnesium Molybdenum Oxide.

The development of ultrathin, stable ferroelectric materials is crucial for advancing high-density, low-power electronic devices. Nonetheless, ultrathin ferroelectric materials are rare due to the critical size effect. Here, a novel ferroelectric material, magnesium molybdenum oxide (MgMoO) is presented. High-quality ultrathin MgMoO crystals are synthesized using chemical vapor deposition (CVD). Ultrathin MgMoO has a wide bandgap (≈4.4 eV) and nonlinear optical response. MgMoO crystals of varying thicknesses exhibit out-of-plane ferroelectric properties at room temperature, with ferroelectricity retained even at a 2 nm thickness. The MgMoO exhibits a relatively large remanent polarization ranging from 33 to 52 µC cm , which is tunable by changing its thickness. Notably, MgMoO possesses a high Curie temperature (>980 °C) across various thicknesses. Moreover, the as-grown MgMoO crystals display remarkable stability under harsh environments. This work introduces nolanites-type crystal into ultrathin ferroelectrics. The scalable synthesis of stable ultrathin ferroelectric MgMoO expands the scope of ferroelectric materials and may prosper applications of ferroelectrics.