Gas chromatography is an innovative approach to separating and quantitating vaporized compounds through the use of an inert carrier gas. Gas chromatography functions according to similar principles as ...

Chromatography is relied on by many disciplines as a method of separating the components of a mixture. The basic idea of the process is that distinct compounds have different levels of solubility, ...

Nobel Laureate Linus Pauling, Ph.D., predicted in 1939 that hydrogen bonding would prove to be more significant in the field of biology than any other type of chemical bond. His prediction has been ...

This lecture explains about the thin layer chromatography (TLC) technique. TLC principle is well explained with examples. Thin layer chromatography is the easy method to separate different types of ...

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.

A novel workflow combining comprehensive two-dimensional gas chromatography (GC×GC) with computer vision (CV) was developed to analyze the complex volatile profiles of coffee. By generating composite ...

In Episode 9 of Chromatography Life, we sit down with Richard Verseput, a pioneer in QbD-driven analytical development, to explore how automation, risk assessment, and smart experimental design are ...

Chromatography refuses to be overwhelmed by the processing demands and cost pressures associated with next-generation medicines. Instead, chromatography is strengthening its commitment to innovation.

Table 1 Substrates of human matrix metalloproteinases. Figure 1: The domain structures of secreted-type matrix metalloproteinases (MMPs) and membrane-anchored MMPs. Figure 2: Purification steps of ...

Gas chromatography is an innovative technique that uses an inert carrier gas for separating and quantitating vaporized compounds. It is based on principles similar to column permeation chromatography, ...