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The 2025 edition of Paris Packaging Week!
Friday, July 1, 2016Publications

Supercritical CO2 extraction and Metabarcoding

© Fotolia/L'Observatoire des Cosmétiques

Within the framework of the environmental respect we study a ginger extract obtained with supercritical fluids and more particularly CO₂. This process joins in an approach of sustainable process replacing the usual chemical solvents by this solvent. A publication of Nicole Giraud and Aymeric Roccia, of DNA GENSEE, and Cyrille Santerre and Nadine Vallet, of ISIPCA.

Reading time
~ 11 minutes

Supercritical CO₂ extraction, soft technology? Metabarcoding, perhaps first responses

Research for new natural origin ingredients becomes essential nowadays and the use of processes which respect the nature, 'green' and 'soft' processes are also a priority for industries of cosmetics in particular. The development of an 'active'raw material from a plant is complex and requires a number of stages: the selection of the plant, the extraction of the biologically active compound, highlighting the activity, fractionation or purification as well as the identification of one or several molecules responsible for this activity.

The presence of DNA in the extract is a consequence of a 'soft' said extraction. To date, this presence in this type of extracts was not highlighted. Within the framework of collaboration between DNA GENSEE and ISIPCA, and through this article we shall bring the first elements of answer.

Supercritical fluids extraction (SFE)

What a supercitical fluid is?

Supercritical fluids are produced by heating a gas over his critical temperature or by compression of a liquid over his critical pressure. The critical temperature of a compound is temperature beyond a liquid phase could not exist, whatever the pressure. Vapor pressure of a compound at its critical temperature is his critical …

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