Explore how the National Resource for Computation in Chemistry (NRCC) revolutionized chemical research through computational power in the 1970s.
Explore the fascinating world of graphene - from synthesis methods to revolutionary applications in energy, electronics, and environmental technology.
Exploring how phonon-induced dephasing affects plasmon excitations in silver quantum dots through ab initio studies
Explore how charge density determines the properties of matter, from DNA structure to advanced materials, through cutting-edge scientific discoveries.
Explore the groundbreaking discovery of superconductivity in magic-angle graphene and its potential to revolutionize quantum computing and electronics.
Discover how SELFIES, a revolutionary molecular representation, is enabling AI to reliably design valid molecules for drug discovery and materials science.
Explore how computational chemists benchmark and test the Local Density Approximation (LDA) method to predict molecular behavior accurately.
Exploring the remarkable properties of Ca₂RuO₄, a Mott insulator that develops strong diamagnetism when stimulated by electric current.
Explore the revolutionary potential of transition metal telluride thin films for next-generation electronics, quantum computing, and sustainable energy solutions.
Explore how Chemical Mechanical Planarization (CMP) creates perfectly flat surfaces for advanced computer chips and enables our digital world.