In collaboration with international partners, researchers at the University of Stuttgart have experimentally demonstrated a ...

Atomically engineered nanozymes (AENs) combine precise nanotechnology with catalytic functions to enhance immune regulation through atomic-level ...

Scientists demonstrated a conceptual breakthrough by fabricating atomically precise quantum antidots using self-assembled single vacancies in a two-dimensional transition metal dichalcogenide.

Atomically thin materials like graphene are single molecules in which all the chemical bonds are oriented so that the resulting molecule forms a sheet. These often have distinctive electronic ...

Researchers show that precisely layering nano-thin materials creates excitons -- essentially, artificial atoms -- that can act as quantum information bits, or qubits. By taking two flakes of special ...

With $1.8 million from the National Science Foundation’s second Future of Semiconductor program (FuSe2), the University of Kansas and the University of Houston will collaborate to develop atomically ...

Since the isolation of graphene, we’ve identified a number of materials that form atomically thin sheets. Like graphene, some of these sheets are made of a single element; others form from chemicals ...

Alkali and alkaline earth metal hydrides hold great promise for hydrogen storage and hydrogen-involved chemical transformations due to the unique properties of hydridic hydrogen (H‾). However, bulk ...

National University of Singapore (NUS) scientists demonstrated a conceptual breakthrough by fabricating atomically precise quantum antidots (QAD) using self-assembled single vacancies (SVs) in a ...