| Abstract Scope |
In this presentation, we will report our approach to synthesizing water-soluble ceramics using high entropy methods for creating sacrificial templates in the manufacturing of self-standing membranes and sensors. These templates dissolve in water, leaving behind functional structures, aligning with the symposium's focus on innovative and sustainable nanomaterials. Our high-entropy approach synthesizes ceramics based on the structure M₃Al₂O₆, where M represents a combination of elements such as Ca, Sr, Y, La, and Ce. These high-entropy ceramics exhibit the necessary solubility in water, making them ideal for sacrificial templates. Detailed XRD, SEM, and EDAX analysis of these materials will be presented.
Our innovative method streamlines production, reduces costs, and eliminates hazardous chemicals, making it environmentally friendly. The high-entropy approach thus provides a versatile, efficient pathway for advanced technological applications, including filtration, separation, and sensitive sensor production. |