“The plasticizers contained in the substrates diffuse into the conductive polymer, thereby improving both the electrical ...

Researchers have shown, for the first time, that speckle contrast optical spectroscopy (SCOS) can be used for cuffless blood ...

Stable isotope probing (SIP) experiments in conjunction with Raman microspectroscopy (Raman) or nano-scale secondary ion mass spectrometry (NanoSIMS) are frequently used to explore single cell ...

Fundamentally, Raman spectroscopy works by measuring how the energy of incoming light changes when it interacts with a sample. Of the light that is scattered from the target, a small amount will ...

We present the demonstration of Raman spectroscopy using a SiN photonics chip spectrometer. This spectrometer will contribute significantly to wearable devices for non-invasive detection, forensic ...

Raman spectroscopy uses scattered light to identify a substance's chemical ingredients and is one of the most widely used scientific methods in space exploration. It is used for lunar exploration ...

About Raman Spectroscopy Near-infrared Raman spectroscopy is considered as one of the most promising technologies for non-invasive glucose monitoring.

When aiming for stretchable, health-monitoring, skin-like sensor sheets materials with demanding properties are required: They need to be flexible, biocompatible, and electrically conductive at the ...

A Raman spectroscopy device was used to non-invasively monitor their blood glucose over a two day period. This uses a near-infrared light of 830nm wavelength, positioned over the person’s thumb.

Raman spectroscopy, known for its non-destructive and high-resolution capabilities, is a promising tool for detection. However, accurately analyzing microplastics in challenging environments ...