This GC-IRMS system is configured to perform compound-specific isotope analysis of compounds that are separable via gas chromatography, and can measure either δ 2 H or δ 13 C.

The integration of gas chromatography (GC) with vacuum ultraviolet (VUV) spectroscopy has emerged as a powerful analytical approach for the separation and identification of complex chemical mixtures.

The objective of this study was to produce a fast, accurate, and precise method for analyzing terpenes in hemp using headspace/gas chromatography/mass spectrometry. Modern interest in terpenes and ...

To sign up for instrument time, please use the Faces Scheduling System. If you do not have an account then email Tom Allston, laboratory manager. Atomic Absorption Atomic-absorption (AA) spectroscopy ...

The purpose of the project was to provide a straightforward way to develop analytical methods for terpene analysis. Terpene analysis can be a difficult proposition and having a basic understanding of ...

Gas chromatography is a common chromatography technique used to separate and analyze volatile chemical compounds which do not decompose. It is typically used to separate different compounds within a ...

Any plant, biological, petrochemical or environmental sample can be considered to be a complex sample. By definition, a complex sample is a multicomponent sample that contains a wide variety of ...

This article details a new approach for characterizing gas evolution in lithium-ion batteries, improving safety assessments ...

The study supports risk-based regulatory approaches, emphasizing realistic exposure scenarios for PFAS in textiles.

New users of the GC/MS laboratory are required to engage in hands-on orientation to facility operations (e.g., laboratory access, scheduling, general use of equipment, housekeeping, etc.) and safety ...