“…As a consequence, many different synthesis processes have been developed to increase control and tuning of these parameters, either on pure CeO 2 powders or in combination with dopant elements. The proposed methods often rely on solution-based routes, high-temperature treatments, hydrothermal steps for the preparation of cube- and rod-like nanostructures, and, more recently, spray flame pyrolysis for uniform dispersion of CeO 2 crystallites. , The application of ball-milling has also been explored, yet mostly in relation with homogeneous distribution of CeO 2 -based powders for subsequent ceramic sintering processes rather than catalytic applications, − but the environmental advantages allowed by a solvent-free milling method have been favoring its application. , In addition, the milling processes have also been demonstrated on a larger scale , compared to other preparation methods, such as hydrothermal or combustion based. The mechanochemical synthesis has indeed attracted increasing attention in the latest years for the synthesis of advanced nanomaterials, usually aimed at the preparation of alloys − or at materials phase-tuning , in high energy milling conditions.…”