Explores computational discovery of novel materials, focusing on quantum spin Hall insulators and topological phases in transition metal dichalcogenides.
Explores modeling multilayer 2D materials, tight-binding models, and electrical conductivity in materials, emphasizing the importance of symmetries and reduced models.
Covers the synthesis of solid state compounds using high temperature methods and the importance of stoichiometric reactions and non-hygroscopic materials.
Explores the concept of time in quantum mechanics, the Heisenberg uncertainty relation, time-resolved photoemission, attosecond time scales, and spin-orbit interaction spectroscopy.
Explores the historical significance of the 1983 CECAM workshop on the free-energy of solids and its impact on developing free-energy methods for hard-core models.
Explores intermolecular electron delocalization in solid-state materials, focusing on molecular orbital interactions and resulting electronic coupling.
Delves into the fundamentals and applications of solid state chemistry, covering classification, characterization techniques, and various practical uses.
