In the following scholarly article from the Journal of Chromatography B, researchers from Université de Reims Champagne-Ardenne, Université de Lorraine, Plateforme S.V.S., Polytech’Lille, and Université de Lorraine detail methods using ion-exchange CPC to separate peptides from protein hydrolysates in the Kromaton A200 centrifugal partition chromatograph.
In the following scholarly article from the South African Journal of Botany, researchers from Center of Food and Life Sciences, Technische Universität München, Freising-Weihenstephan, Germany, detail methods used to separate flavonoids and flavor enhancing compounds from South African bush tea using the Kromaton A200 centrifugal partition chromatograph.
In the following scholarly article from the Journal of Industrial Microbiol Biotechnol, researchers from Department of Biological and Agricultural Engineering, University of Arkansas, detail methods used to separate various xylose oligomers using the Kromaton A200 centrifugal partition chromatograph.
In the following scholarly article from the Journal of Chromatography A, researchers from The Advance Centre for Biochemical Engineering, University College London, detail methods used to separate natural sugars from a beet pulp feedstock using the Kromaton A200 centrifugal partition chromatograph.
Since 2018, Rousselet Robatel Kromaton has been working directly with cannabis producers in lab, pilot, and full production scale facilities. Our knowledge comes from years of hands on experience working with clients to manufacture high grade cannabis related products. The Kromaton FCPC has played a vital role for our clients in producing high quality broad spectrum distillates, as well as isolates of several cannabinoids, including CBDA, CBD, THCA, Δ8-THC, Δ9-THC, CBN, CBG, and several other minor cannabinoids.
In the following video, Robatel Process Development Engineers explain the basic operating principles of centrifugal partition chromatography and how they apply to THC remediation from full spectrum CBD distillate.