Leaves are green because they contain chlorophyll, a pigment whose molecules absorb all the light energy in the visible light spectrum except the parts producing the green color of the leaf, which is reflected.
Chromophore is the name of the chlorophyll functional group (aka moiety) of the chlorophyll molecule.
Organic pigments (chemicals that have color) have chromophores.
Chromophores absorbs, reflect and/or transmit visual light energy.
For more information about Chromophores:
- How chromophores in thermochromic products change.
- Ideas for adding rigor to lessons about thermochromic stickers.
Posted in: Light Energy
Leuco Dyes are chemicals whose molecules can have two form, one form is colorless and the other form is colored. The colorless form is transparent, meaning that visible light is not absorbed by the molecules. Window glass is transparent, thus visible light passes through without being absorbed or reflected.
One example of a leuco dye is phenolphthalein, a chemical whose molecules respond to changes in pH (a scale measuring the acidic or basic nature of a substance). At a pH of 7 or lower, phenolphthalein molecules are colorless and transparent, thus a solution of phenolphthalein would have no color and visible light would pass through the solution. At a pH greater than 7, phenolphthalein molecules absorb most of visible light, reflecting parts that you perceive as pink to fuchsia in color.
Leuco dyes change color due to halochromism. In other words, color changes in response to changing in pH.
So What is pH?
pH is a scale that describes how acidic or basic a substance is. A pH of 7 is neutral, meaning it is neither an acid nor a base. A pH less than 7 is an acid. A pH greater than 7 is a base.
Since color is due to chromophores, changes in pH affects the chromophores of the molecules of halochromic chemicals.
This sounds so complex and at the molecular level there is a lot going on.
In the diagrams below, the structure of a chromatophore of a phenolthalein molecules changes. To understand this change, one needs to understand organic chemistry. But, even elementary kids can observe and determine that the two structures are different. Because of the differences, the structure on the left is transparent. This means that visible light passes through, much like visible light passes through a glass of water. The structure on the right reflects parts of visible light that make the phenolthalein molecules have a fuchsia color.
The change in the structural shape of the chromatophore section of phenolthalein molecules is due to changes in pH.
Indicators are chemicals that exhibit halochromism. Common indicators are red litmus and blue litmus. Red litmus turns blue when it comes in contact with an acid. Blue litmus turns red when it comes in contact with a base.
In the same way as phenolphthalene, Leuco dyes in thermochromic inks have chromatophores that respond to changes in pH. Find out how dyes that are actually halochromic are the color changing part of thermochromic inks.
|Changes in Chromatophore Structure|
|Conditions||acidic or near-neutral||basic|
|Color name||pink to fuchsia|