Researchers report a novel approach to precisely fabricate well-defined graphene nanoribbons with a tailored pentagon carbon embedded inside and supported on the Ag(111) model catalyst.
The wide variety of applications is made possible by the tunable, atomically precise structure of the nanoclusters which allows for modifications of their physical and chemical properties via tight connection between computational modeling and experimental characterization.
Researchers discover new, fast, and precise method for detecting indicators of COVID-19 and breast cancer in a blood sample. By using tiny nanopores and nanobodies, we may face fast and accurate disease diagnosis using a simple blood test.
The discovery proves, for the first time, both theoretically and experimentally, that it is possible to selectively modify the reactivity of certain bonds in a chemical reaction at room temperature in a liquid solvent, through the influence of the electromagnetic field vacuum in a narrow range of infrared frequencies.
