Research Articles
The Squeeze-Stretch Enigma: How Poisson's Ratio Shaped Two Centuries of Materials Science
Explore the fascinating history and science of Poisson's ratio, from its controversial beginnings to modern applications in materials science and engineering.
Sculpting with Light: How Two-Photon Uncaging Is Revolutionizing Neuroscience and Materials Science
Explore how two-photon uncaging technology enables precise control of neural circuits and advanced materials development using light-activated molecular release.
Cracking the Code of Crystals: Teaching Computers the Secret Language of Atoms
Discover how a new EAM-type interatomic potential model is revolutionizing materials science by accurately simulating polytype crystal structures like Silicon Carbide.
The Invisible Dance: How Molecular Dynamics Reveals the Hidden Life of Metallic Glasses
Exploring how molecular dynamics simulations reveal the atomic-scale behavior of bulk metallic glasses, their deformation mechanisms, and potential applications.
The Shapeshifting World of Liquid Crystals: How Tiny Ions Trigger Molecular Metamorphosis
Discover how bent-core liquid crystals transform their nanostructure in response to ions, enabling programmable materials for photonics and biosensing.
The Molecular Makeover: How Organoclay Chemistry is Reshaping Our World
Discover how organoclay chemistry transforms ancient clay minerals into high-tech nanomaterials for environmental, industrial, and medical applications.