Chromium(III) Chloride is a kind of purple crystalline flakes with a chemical formula of CrCl3. It can be used in the formation of a catalytic system for the conversion of glucose into 5-hydroxymethylfurfural (HMF). It can also be used in the preparation of ionic liquid mixtures using choline chloride and water with improved ion mobility and conductivity.
Chromium(III) Chloride CrCl3 is an important raw material for the synthesis of other chromium salts and plays an important role in inorganic synthesis and organic synthesis. It is the main ingredient of synthetic feed additives and is mainly used as a mordant and catalyst in the industry.

Our Chromium(III) Chloride Powder is stored in a cool, ventilated warehouse and will be kept sealed.It will be carefully handled during storage and transportation to preserve the quality of our product in its original condition. It will be packed in vacuum packing in carton or iron drum.
Chromic chloride appears as blue or green colored crystals dissolved in water. Denser than water. Corrosive to metals.
Chromium(III) chloride CrCl3 is a chloride of chromium. It is used in organic synthesis and reactions. Chromium is a chemical element which has the symbol Cr and atomic number 24. It is found naturally occuring in rocks, animals, plants, and soil, and is usually mined as chromite ore. Chromium is most toxic in its +6 oxidation state (chromium(VI)) due to its greater ability to enter cells and higher redox potential. Trivalent chromium (chromium(III)) however, is biologically necessary for sugar and lipid metabolism in humans.
In chromium (III) chloride, (CrCl3), chloride ions have cubic close packed arrangement and Cr ions are present in octahedral voids.
The recent discovery of magnetism in atomically thin layers of van der Waals
(vdW) crystals has created new opportunities for exploring magnetic phenomena in the twodimensional (2D) limit. In most 2D magnets studied to date the c-axis is an easy axis, so that
at zero applied field the polarization of each layer is perpendicular to the plane. Here, we demonstrate that atomically thin CrCl3 is a layered antiferromagnetic insulator with an easyplane normal to the c-axis, that is the polarization is in the plane of each layer and has no preferred direction within it. Ligand field photoluminescence at 870 nm is observed down to the monolayer limit, demonstrating its insulating properties. We investigate the in-plane magnetic order using tunneling magnetoresistance in graphene CrCl3 graphene tunnel junctions, establishing that the interlayer coupling is antiferromagnetic down to the bilayer.
From the temperature dependence of the magnetoresistance we obtain an effective magnetic phase diagram for the bilayer. Our result shows that CrCl3 should be useful for studying