The detection and study of isotopes, atoms of the same element that have different numbers of neutrons, could expand the ...

Mass spectrometry is a cornerstone technique across various scientific disciplines, enabling precise analysis of complex samples, characterization of atom clusters and molecules, and elucidation of ...

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 ...

Mass spectrometry is already a powerful tool for determining what kind and how many molecules are present in a given sample. But most instruments still analyze their molecules one or just a few at a ...

Mass spectrometry is already a powerful tool for determining what kind and how many molecules are present in a given sample. But most instruments still analyze their molecules one or just a few at a ...

Mass spectrometry (MS) has long been a cornerstone of chemical and biological analysis, but in biotech and biomanufacturing, it is now experiencing a renaissance. As drug modalities diversify—peptides ...

In a world filled with trillions upon trillions of atoms, spotting a handful that ...

This Clinical Chemistry and Laboratory Medicine review examines a central challenge in precision medicine: whether medical ...

From traditional cultures to cutting-edge molecular tools, clinical microbiology is transforming how we detect and identify pathogens. New methods like MALDI-TOF mass spectrometry and rapid PCR are ...

Just how far mass spectrometry—the use of tools measuring the mass-to-charge ratio (m/z) of one or more molecules present in a sample—has progressed over the past century can be seen in a new exhibit ...