Spectroscopy has many applications, ranging from fundamental tests of quantum electrodynamics and investigations of molecular ...

In the field of clinical instrumentation and life science research, sensing and optical spectroscopy perform vital roles in a range of applications. Optical spectroscopy offers an optimal method for ...

In this interview, Kevin Broadbelt of Thermo Fisher Scientific discusses the small molecule applications of process Raman spectroscopy. How do cell therapies differ in complexity compared to ...

The measurement of samples in the transmission configuration presents opportunities that conventional backscattering coupling with a microscope cannot address. Although not a recent innovation, ...

While there are a number of techniques available for profiling surface structures, like scanning electron microscopy and transmission electron microscopy, the advantage Auger spectroscopy has for ...

Raman spectroscopy is a molecular optical technique that probes inelastic scattering to obtain vibrational fingerprints of biological tissues. Over recent decades, this label-free, non-destructive ...

The Fourier Transform Infrared Spectroscopy is an exceptional analytical tool that has changed the ways in which scientists and researchers of various fields understand the molecular world. It is a ...

Mass spectrometry has revolutionised the field of fungal diagnostics by enabling rapid, accurate and high‐throughput identification of yeasts, moulds and other filamentous fungi. Central to this ...

Following the advent of massive parallel sequencing, efforts such as The Cancer Genome Atlas (TCGA) use genomics to create mutational landscapes of tumors to create insight into tumor biology, and to ...

“Plasma” refers to a gas with a significant proportion of ionized molecules, which produce various excited ions, atoms, and molecules. Electrons liberated from ions and atoms are highly energetic and ...

Mass spectrometry measures the mass-to-charge ratio of ions by ionizing chemical compounds to produce charged molecules. A typical mass spectrometer consists of three parts: a detector, a mass ...

Dual-comb spectroscopy uses paired ultrafast laser frequency combs to identify molecules by their spectral fingerprints, enabling broad scientific and sensing applications.