Research Articles
Digital Alchemy: Mining the Next Generation of Two-Dimensional Metals
Discover how computational methods are revolutionizing the discovery of two-dimensional metals with unique properties for next-generation technologies.
The Invisible World Beneath Our Fingertips: How Surface Analysis Shapes Our Future
Explore the fascinating world of surface analysis and how understanding material interfaces drives technological innovation across industries.
The Invisible World of Interfaces: Engineering Matter at Its Boundaries
Explore how interfacial engineering transforms material properties by controlling atomic-scale boundaries in metals, electronics, and composites.
The Hidden World of Atomic Journeys: How Diffusion Shapes Our Material World
Explore the invisible process of atomic diffusion that transforms materials and powers our modern world, from steel strengthening to battery technology.
Bridging Worlds: From Macro and Micro Scale to Prototype and Product
Explore how quantum phenomena and microscopic processes bridge to macroscopic applications and innovative products through scientific discovery and prototyping.
Decoding Chemical Fingerprints: How Machine Learning Revolutionizes Photoelectron Spectroscopy
Explore how machine learning is transforming photoelectron spectroscopy, enabling faster analysis, deeper insights, and new discoveries in materials science and nanotechnology.
Beyond the Guesswork: How Density Functional Theory is Revolutionizing Modern Science
Explore the latest developments in Density Functional Theory (DFT) and its revolutionary impact on chemistry, materials science, and renewable energy research.
The Versatile Volcanic Marvel: How Pumice Powder Is Revolutionizing Materials Science
Explore how pumice powder, a volcanic wonder, is transforming materials science with applications in construction, polymers, and environmental cleanup.
Seeing Atoms: How Ultra-High Vacuum Microscopy Reveals Nature's Building Blocks
Explore how High-Resolution Ultra-High Vacuum Electron Microscopy enables scientists to observe atomic-scale surface processes in real time.
The Secret Lives of Surfaces: Predicting When Materials Change Their Skin
How supercomputers and statistical physics are unlocking the future of materials design by predicting surface phase transitions.