Miniaturizing gas chromatography has long been constrained by the need for external pumps and valves, limiting portability, ...

Analysts interested in quantifying volatile organic compounds like disinfection byproducts in liquid samples should consider using the gas chromatography system. There are two gas chromatography (GC) ...

How has Traditional Gas Chromatography Evolved? Although the concept of chromatography was invented in 1900 by a Russian-Italian botanist, Mikhail Tsvet, the concept of Gas Chromatography (GC) ...

Regulatory changes from the EPA have catalyzed significant innovations in gas chromatography, enhancing analytical ...

Thermal Gradient Gas Chromatography (TGGC) employs dynamic temperature profiles along the chromatographic column to enhance separation efficiency and peak resolution. This technique, when integrated ...

On-line analyzers are of growing importance for process monitoring, optimization, and control of numerous large-scale applications across the refining, petrochemical, power generation, metals, and ...

Equipment for gas chromatography, liquid chromatography and mass spectrometry is complex, with multiple subsystems that control the flow of sample analyte, carrier gas and solvent fluids. The ...

Shiitake mushrooms contain bioactive compounds with antimicrobial, antioxidant, and anti-inflammatory activities, making them promising for alternative therapeutic applications.

This is the Best of the Week. Voices from the Analytical Front Line: Bingchuan Wei on Chromatography in 2026 In the year 2026, chromatography is undergoing a series of advancements and challenges.

The wide range of chromatographic techniques share one common aim: to separate a material into its components. A material, your sample, is dissolved in a solvent, called the mobile phase. This mixture ...