Inductively Coupled Plasma Mass Spectrometry (ICP-MS) remains one of the most powerful analytical tools for trace element and isotope analysis.

Postnova Analytics reports on exciting advances in the analysis of plasma proteins using a hyphenated system that couples asymmetric flow Field-Flow Fractionation (AF4) and inductively coupled ...

Today, nanoparticles are being utilized in a wide variety of products and materials, such as clothing, coatings, fuel additives, antimicrobial bandages, biomedical elemental tags, sunscreen, MRI ...

The environmental impact of engineered nanoparticles (ENPs) used in consumer products is a concern that needs to be addressed. To assess the environmental impact and risks through the use of ENPs in ...

We measure trace and minor element element concentrations in biogenic carbonates, including foraminifera, corals, and ostracods, to reconstruct past climates. These and other sample types are welcomed ...

Reliable and accurate determination of elemental composition, chemical binding, and oxidation states is important for evaluating toxicity in environmental analysis, medical and pharmaceutical analysis ...

Microplastics screening has become an increasingly important part of environmental analysis, necessitating reliable analytical processes. ICP-MS has traditionally been unsuitable for measuring carbon ...

Contrary to their name, rare earth elements (REE) constitute a significant portion of the Earth's crust, where they exist dispersed among various minerals. The demand for REE has surged in recent ...

Inductively coupled plasma–mass spectrometry (ICP-MS) is a key technique for trace element analysis across a wide variety of sample types, due to its outstanding speed, detection sensitivity and ...

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