Research Articles
Crystalline Treasures: How the Digital Age is Revolutionizing Material Discovery
Explore how computational methods and AI are transforming the discovery of crystalline inorganic solids, from battery materials to quantum computing components.
Pressure Cooking a Crystal: How Squeezing Transforms Metal-Organic Frameworks
Discover how scientists use extreme pressure to permanently transform metal-organic frameworks, achieving 98% chemical conversion at 50,000 times atmospheric pressure.
Building with Atomic LEGO: The Rise of Laponite, CdSe, and Polyaniline Nanocomposites
Explore how directed self-assembly of laponite, CdSe quantum dots, and polyaniline creates revolutionary nanocomposites for advanced technologies.
The Silent Symphony of Solids: How Computational Physics is Composing the Future of Materials
Explore how high-throughput density-functional perturbation theory is revolutionizing materials science by mapping phonon vibrations to discover new materials.
The Self-Healing Metal: How Chemistry Gives Steel a Superpower
Discover how in-situ tribochemical treatment transforms 45 steel into a self-healing material with enhanced mechanical properties and tribological behavior.
The Tiny Hairballs Revolutionizing Materials: Silica Hairy Nanoparticles
How silica hairy nanoparticles are transforming materials science through programmable self-assembly, creating smart and sustainable materials.