Monday, August 10, 2015

What’s the Difference Between Organic and Inorganic Pigments?

Raw material science plays a big part in the quality of our products and our reputation in the industry. Since color is one of our core competencies, pigments are a very important material category. At a recent Americhem U color class, we were asked to define the differences between organic and inorganic pigments. Both play an important part in the world of colorants and both become an integral part of our color concentrates.


Organic pigments are based on carbon rings or carbon chains. Inorganic pigments are not based on carbon and could consist of metal oxides or other naturally occurring ingredients. From a standpoint of molecular structure, that is the primary difference, although organic pigments can contain inorganic elements that help stabilize the properties of the organic, carbon-based component. Chemically, you can see the carbon in the structure diagram below, representing Pigment Red 202. 

C = Carbon
Cl = Chlorine
O = Oxygen
N = Nitrogen


Inorganic pigments without carbon rings or chains look like this example - titanium dioxide. 

O = Oxygen
Ti = Titanium

Aside from the molecular structure, there are some generalizations that can be made about organic and inorganic pigments:

Inorganic
  •          Larger particle size
  •          Generally more opaque, with better ability to hide a substrate or base color
  •          Lower chroma, or brightness
  •          Generally more stable, for example, to light or chemicals
  •          Can be derived from minerals or metals
  •          Take less energy to fully develop, or disperse, the color


Organic
  •          Smaller particle size
  •          More transparent or translucent
  •          Higher chroma
  •          Generally less stable, particularly to sunlight and heat
  •          One class of organics are dyes
  •          Could be derived from plants and plant products
  •          Take more energy to disperse


Examples of inorganic pigments include titanium dioxide white or iron oxide red.  Examples of organic pigments include Phthalocyanine blue or green and Quinacridone red or violet. Despite the long, alphabet-spanning names, the common thread is that carbon is present in their molecular structure.

Consider us your authority when it comes to color. If there are other aspects of color that you’d like for us to explore, join the conversation and leave us a comment. 

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