Tuning Microstructure and Phase Composition in Porous Ceramic Materials: Implications for Gas Separation Performance

Abstract

This study looks into how gas separation performance is affected by adjusting porous ceramic materials' microstructure and phase composition. The main goals are to investigate microstructural engineering approaches, examine the consequences of phase composition, use sophisticated characterization tools, spot new trends, and evaluate policy implications. Methodologically, secondary data from various experimental and computational research studies are collected and analyzed from existing literature. Important discoveries demonstrate how precisely regulating phase compositions and microstructural characteristics affects gas adsorption, diffusion, and selectivity properties. Even if new technologies present hopeful solutions, issues still need to be resolved, including access hurdles, regulatory frameworks, economic factors, and environmental concerns. The policy implications indicate that measures for technological transfer, international collaboration, and sustainable manufacturing practices are required to utilize porous ceramic materials in gas separation technologies fully. This study emphasizes how crucial it is to work across disciplines to advance policies strategically and move the field closer to a cleaner, more sustainable future.