Research Articles
Cracking the Hydrogen Code: The Simple Computer Model Designing Super-Materials
Discover how the Embedded Atom Method (EAM) potential helps scientists design advanced Pd-H alloys for hydrogen storage through powerful computer simulations.
The Midnight Machinery of the Mind: How Sleep and Wakefulness Reshape Your Brain
Discover how sleep-wake cycles drive daily dynamics of synaptic phosphorylation and reshape your brain's molecular architecture for optimal cognitive function.
The Digital Microscope: When Simulating Reality Isn't Perfect
Exploring how scientists measure and minimize uncertainty in molecular dynamics simulations to create more reliable digital models of reality.
Decoding Rust at the Atomic Level: How Computational Science is Revolutionizing Corrosion Prevention
Explore how molecular modeling is transforming corrosion science, enabling atomic-level insights into prevention strategies with significant economic impact.
The Invisible Handshake: How Scientists Measure Heat’s Molecular Handoff
Explore how scientists use molecular dynamics simulations to quantify the Thermal Accommodation Coefficient for iron surfaces, unlocking secrets of atomic energy exchange.
The Scientific Finale: What "Summary of Contributions" Really Tells Us
Exploring the importance of the Summary of Contributions section in scientific research through the lens of LIGO's gravitational wave discovery.
Molecular Twists and Turns: The Secret, Jiggling Life of Proteins
Discover how scientists use NMR spectroscopy to probe protein dynamics through chemical shift fluctuations, revealing the hidden motions essential for biological function.
The Hidden Ocean at the Interface: How Scientists Discovered an Ultracompact Electrical Double Layer on TiO2
Scientists discover ultracompact electrical double layers at TiO2(110) interfaces, challenging century-old models and revolutionizing energy and environmental technologies.
ATIP3: The Microscopic Guardian That Could Revolutionize Breast Cancer Treatment
Discover how ATIP3 protein regulates microtubule dynamics to limit breast cancer cell migration and slow metastatic progression, offering new therapeutic possibilities.
Crystals That Spin: The Amazing World of Molecular Machines in Metal-Organic Frameworks
Discover how scientists have engineered crystals with molecular components spinning at incredible speeds up to 50 billion rotations per second.