TY - JOUR AU - Knorpp, Amy J. AU - Bell, Jon G. AU - Huangfu, S. AU - Stuer, M. PY - 2022/03/30 Y2 - 2024/03/28 TI - From Synthesis to Microstructure: Engineering the High-entropy Ceramic Materials of the Future JF - CHIMIA JA - Chimia VL - 76 IS - 3 SE - Scientific Articles DO - 10.2533/chimia.2022.212 UR - https://www.chimia.ch/chimia/article/view/2022_212 SP - 212-222 AB - <p>Sintering and microstructural development in ceramics has long been studied in a two-dimensional grain size-density space, with only texture (<em>i.e.</em> deviation of grain orientation from random) used to gain first insights into additional parametric spaces. Following an increased interest for grain boundary engineering and a deeper understanding of dopant effects on sintering and grain boundaries, the theory of complexion transitions for ceramics has been introduced over the last decade, providing a new base for advanced microstructure engineering in ceramics. With emergence of high entropy ceramics over the last 5 years, the combination of both yields new grounds for exploration and engineering of functional ceramic materials of the future.</p> ER -