Determination of the Na3AlF6–Y2O3Phase Diagram and Its Implications for Low-Temperature YAG/Nd:YAG Synthesis

A new way of preparing YAG, Y3Al5O12, materials at low temperatures has been discovered using a molten Na3AlF6–Y2O3reaction mixture. For the successful synthesis of YAG, a precise examination of the cryolite part of the phase diagram of the Na3AlF6–Y2O3system was carried out up to 45 mol % of Y2O3using thermal analysis with a larger amount of sample (12 g). The phase diagram of the Na3AlF6–Y2O3system was discovered to be likely a simple eutectic system with one inflection point on the liquidus curve (coordinates: 22.0 mol % Y2O3, 920 °C) and one eutectic point (coordinates: 43.0 mol % Y2O3, 620 °C). The spontaneously solidified samples of Na3AlF6–Y2O3after thermal analysis have been investigated using solid-state NMR (19F, 23Na, and 27Al) spectroscopy and X-ray powder diffraction over a broad range of compositions. The minimal synthesis temperature used in this work for the preparation of YAG was 630 °C, and the Y2O3concentration was 43 mol %. Besides the synthesis of YAG, the molten Na3AlF6–Y2O3system with the addition of Nd2O3has been successfully used also for the preparation of the neodymium-doped YAG powders (Nd:YAG). Rietveld refinement has been used to quantitatively assess the incorporation of neodymium into YAG and β-Na(Y1.5Na0.5)F6materials.