The advancement of thermoelectric materials is essential for improving energy conversion systems across various applications by directly converting waste heat…

Solid oxide cells (e.g., oxygen ion conducting/proton conducting cells) allow for versatile electrochemical reactions to occur efficiently, selectively, cost-effectively, and…

This symposium brings together colleagues, former students, and collaborators of Steve Feller to celebrate his outstanding teaching and research career…

The glass industry requires constant innovation to meet the needs of new compositions, new products, and sustainable manufacturing processes. Studies…

The field of light interaction with matter has attracted increased attention with advances in ultrashort pulse lasers and high-power fiber…

Modeling and simulation are integral to advancing materials research, especially in the realm of glass, ceramics, amorphous and nanostructured materials,…

This session will address all fundamental aspects of glass formation, including experimental, modeling, and theoretical developments in our understanding of…

The symposium will broadly cover the advances in current and emerging superconducting and 2D magnetic material research from fundamental science…

High-entropy oxides, be it in bulk form, thin films or nanoparticles have developed over the past few years to become…

From a crystal chemistry perspective, electroceramics are complex systems that encompass various lattice configurations for charged substituents and defects, as…