An engineered infrared fluorescent protein is the first member of a new class of genetically encodable probes, with special advantages over visible-wavelength fluorescent proteins for in vivo imaging.

A study published in Small highlights how nano-phase separation impacts analyte binding in aptasensors, paving the way for ...

Infrared spectroscopy products are used to analyze the interaction of molecules with infrared light and are used in the analysis of nanoscale semiconductors, protein characterization, and space ...

Infrared (IR) spectroscopy is a powerful tool used by chemists to identify molecules and determine their structure. It could be used to analyse the proteins in biofluids such as blood serum, in order ...

Like its predecessors AQS 3 pro and Apollo, the Aurora protein analyzer uses microfluidic modulation spectroscopy (MMS) and ...

Absorption spectroscopy is a fundamental analytical technique widely used in various scientific disciplines, including chemistry, biology, and material science. It effectively analyzes substance ...

We conclusively demonstrate UV-fluorescence correlation spectroscopy (UV-FCS) on proteins with a single tryptophan residue. This unlocks the applicability of UV-FCS to a broad library of thousands of ...

NIR spectroscopy is transforming baking, offering real-time insights into moisture, fat and protein levels to ensure ...

Several current areas of interest are motor-protein motion and collective effects in motor-filament interactions ... Our research revolves around the chemical physics of molecular structure and ...

It measures the level of undenatured proteins present in a meal ... However, Fourier Transform Near-Infrared Spectrometry (FT-NIR) offers a rapid, non-destructive alternative.