Carbon nanomaterials consist of a range of carbon allotropes including carbon nanofibers, carbon nanotubes, graphene, and graphene oxide, each displaying unique properties in mechanical strengths, ...

Raman technology has been deployed as a molecular fingerprint for the analysis of molecular structures, for predicting the chemical concentrations in mixtures and for identifying specific molecules.

Carbon nanotubes and nanopipes have been shown to have great potential as cellular probes, for use as nanofluidic devices to transport solutions to or from cells. Making these nanopipes able to sense ...

Carbon material characterization is essential across multiple industries, especially for ensuring the quality of lithium-ion batteries (LiBs). This article examines the context and limitations of ...

A Carbon nanotube (CNT), their name being derived from their size and composition, is a member of the fullerene structural family that forms cylindrical carbon molecules. A CNT can be up to several ...

Just as a wine glass vibrates and sometimes breaks when a diva sings the right note, carbon dioxide vibrates when light or heat serenades it. When it does, carbon dioxide exhibits a vibrational puzzle ...

Explore how Raman spectroscopy supports quantitative pharmaceutical analysis by enabling accurate measurement of active ...

In summary, acorn-like partially carbon-coated Co nanoparticles with a mean diameter of 3.1 nm were prepared by a BCP self-assembly and subsequent partial oxidation approach. The bicomponent ...

(Nanowerk News) Scientists have developed a new strategy to significantly boost the sensitivity of graphene-based sensors that detect molecules using Raman spectroscopy. By modulating the graphene's ...