Chromium Oxide Green Pigment
Chromium Oxide Green, also known as chromium sesquioxide or chromia, is one of four oxides of chromium. It is commonly called chrome green when used as a pigment; however, it was referred to as viridian when it was first discovered. Learn more.
This pigment is a high-quality, clean, medium-shade, very stable green pigment that is unaffected by acids, alkalis, and solvents. It is heat stable and offers excellent value, lightfastness, and weatherability.
|chromia, chrome green, chromium sesquioxide
Origin and History
The element chromium was found in lead chromate in 1797 by Louis-Nicolas Vauquelin. The name chromium was given to the element because so many colored compounds can be produced from it. As early as 1809, chromium oxide was used as an enamel in porcelain factories but was not yet used as a painting pigment. Several sources have written that chromium oxide was not used as a pigment until 1862, but evidence suggests that it was used earlier. The pigment has been identified on a J.M.W. Turner painting, which dates back to 1812. An 1815 journal entry by George Field included a homemade example of the pigment. In 1831, Vergnaud discussed two different preparation methods but said that the pigment was not widely used because of its high price. A catalog of pigments printed around 1840 lists a green oxide of chromium, which is believed to be chromium oxide. Also, in 1969, Kühn found chromium oxide in three paintings dated between 1845 and 1850 using microscopy and emission spectroscopy. It is widely accepted that chromium oxide was used before the hydrated version. However, their use has been limited since these greens are much more expensive than emerald greens or chrome greens due to the preparation process. It is sometimes used to make lightfast paints when mixed with yellows. In the past, it was used in automotive finishes and to make bank notes.
The first man to prepare chromium oxide was Pannetier in Paris, but his process was kept hidden. Guignet invented a two-step process for preparing the chemical. His first step was to heat boric acid and potassium bichromate, a process known as calcining, which produced a porous mass. The second step produces hydrated oxide, boric acid, and some boron after the mass is washed in cold water or hydrolyzed. This is only one of several ways for the preparation of chromium oxide. Hydrated chromium oxide has no specific chemical composition since different preparation processes produce the chemical with boron, while other processes produce the chemical without boron.
Permanence and Compatibility
Hydrated chromium oxide is permanent, but chromium oxide is more stable and is one of the most permanent pigments an artist uses. It will not react with hydrochloric acid or sodium hydroxide, so it is safe in alkali and acid environments, making it suitable for fresco and outdoors.
Oil Absorption and Grinding
Chromium oxide green absorbs a small amount of oil (26 g oil per 100 g of pigment).
Though chromium oxide green is not a serious health hazard, it can irritate the skin and eyes and cause nausea and other problems if ingested. Dust inhaled can also cause respiratory problems. It is not a fire hazard and does not readily react with other materials.
This pigment is FDA-approved (Section 178.3297).
|Pigment Green 17 (77288)
|ASTM Lightfastness Rating
|8.0 to 8.5
|26 g oil/100 g pigment
|Median Particle Size:
|Sieve Residue (325 mesh):
|1800°F / 982°C
|Usually ships the next business day.