A non-destructive, quality control method based on Raman spectroscopy and developed by the National Physical Laboratory (NPL) is helping to commercialise wafer-scale fabrication technology for the 2D material MoS2.
Spectroscopy imaging on the nanoscale is being helped by a new fibre nanoimprinting process.
Researchers at Northwestern University have created a new method (gradient-assisted multi-dimensional electronic Raman spectroscopy) to extract the static and dynamic structure of complex chemical systems. This new method uses four spectral dimensions to resolve structure to reveal hidden features of molecular structure.
Diamond Light Source has welcomed the first users to the hard X-ray nanoprobe beamline (I14), the latest phase III beamline to be opened.
Researchers have reported a new development of hyperspectral infrared nanoimaging. It is based on Fourier transform infrared nanospectroscopy (nano-FT-IR) and enables highly sensitive spectroscopic imaging of chemical composition with nanoscale spatial resolution.
Spectral and lifetime properties of the enhanced upconversion and downconversion mechanism of shell-enhanced lanthanide-doped nanocrystals revealed through luminescence spectroscopy.
Researcher from the Graphene Flagship have developed a novel graphene-based infrared (IR) detector demonstrating record high sensitivity for thermal detection. Graphene’s unique attributes pave the way for high-performance IR imaging and spectroscopy.