I'm wondering about how does the litmus solution work as a pH indicator.

And another question:

When you put drops of litmus solution into an colorless acid (e.g. $\ce{HCl}$), it turns red. But then if you add colorless base (e.g. $\ce{NaOH}$) to the mixture, it turns blue. How come?

I thought that the litmus solution doesn't change color after it's changed color once already after a chemical change with an acid or a base. In this case, I thought that the mixture wouldn't turn blue after adding the $\ce{NaOH}$ into the mixture. But it seems that it still works well after used once.

How come?


1 Answer 1


This explanation is true for most organic indicators. Litmus is a complex mixture of organic molecules. The molecule responsible for the color change (the chromophore), is 7-hydroxyphenoxazone (image taken from Wikipedia, public domain):


See that $\ce{OH}$ group at the lower left? That's where the so-called "acidic proton" is. This molecule is actually a weak acid, meaning that in the presence of a strong base, the $\ce{OH}$ group can lose a proton, which reacts with an hydroxide ion ($\ce{OH^{-}}$) to form a water. The 7-hydroxyphenoxazone is now a negatively charged ion: it looks the same except it is missing the $\ce{H}$ on the $\ce{OH}$ group, and it leaves behind an electron.

To think about the equation that describes what's going on, pretend that the entire 7-hydroxyphenoxazone molecule is represented by the formula $HLit$, where $\ce{H}$ is the hydrogen on the $\ce{OH}$ group and $Lit$ is everything else (this is common procedure: only the hydrogen matters in the acid-base equation). Then the acid-base equation is:

$$\ce{OH^{-} + HLit <=>H2O + Lit^{-}}$$

As more strong base is added, more hydroxide ion is present, driving the equilibrium to the right and producing more $Lit^-$ ion. And now, the color change: $HLit$ is red, but $Lit^-$ is bue. So the more acidic your solution, the more the equilibrium is to the left and thus there is more $HLit$ than $Lit^-$.

Litmus is pretty good for checking rough acidity or basicity, because its midpoint pH is close to 7 (neutral). Litmus is as red as it gets at a pH of 4.5, and is as blue as it gets at a pH of 8.3, so the midpoint is about 6.4, a bit more acidic than pure water.

  • $\begingroup$ Superb explanation. Can you help me with the source of your information? I want to know more. $\endgroup$ May 19, 2021 at 12:14

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