This article traces the development of ceramic substrate materials, highlighting advancements in alumina, aluminum nitride, and silicon nitride, alongside manufacturing techniques like LTCC, HTCC, DBC, and DPC, and their critical roles in modern technology.

Zirconium carbide (ZrC) and titanium carbide (TiC) nanoparticles offer a unique blend of ceramic durability and metallic-like electronic properties, making them top contenders in high-performance catalysis. This article explores their properties, behaviors, and comparative performance in catalytic applications to determine which nanoparticle offers better selectivity and long-term value.

Explore innovative methods for porous SiC synthesis, such as template-assisted techniques, direct foaming, and 3D printing, enhancing performance in filtration, catalysis, and energy applications.

This article examines the importance of raw material purity in determining the quality of sintered silicon carbide and its impact on processing, performance, and overall application success.

Explore how ten advanced ceramic materials, from MLCCs to nano functional ceramics, are driving innovation in electronics, aerospace, healthcare, and more by 2025 and beyond.