The reaction of $\ce{FeCl3}$ with $\ce{CH3COO-}$ is

$$\ce{3Fe^{+3} +6CH3COO- +H2O<=> [Fe3(OH)2(CH3COO)6]^{+} +2H^{+}}$$

Recently I read that a solution of $\ce{FeCl3}$ hydrolyses very quickly to form $\ce{Fe(OH)3 +3H^{+}}$ as described by the following equilibrium:

$$\ce{FeCl3(aq) +3H2O <=> Fe(OH)3(s) +3H^{+}} \tag{1}\label{eqn:1}$$

with hydrolysis constant $K_\mathrm{h}$. I found a $K_\mathrm{sp}$ value of $\ce{Fe(OH)3}$ of $\pu{4E-38}$, so the equilibrium

$$\ce{Fe(OH)3 <=>Fe^{+3} +3OH-}$$

has $K_\mathrm{sp} =\pu{4E-38}$ and after a bit of rearrangement I got $K_\mathrm{h}$ of $(\ref{eqn:1})$ as $\frac{K_\mathrm w^{3}}{K\mathrm{sp}}$.

Hence at $\pu{25 ^\circ C}$, since the ionic product of water is $10^{-14}$, calculation gives $K_\mathrm{h}= \pu{2.5E-5}$. If we maintain neutral pH (ie. $10^{-7}$) we then get $\alpha$ (dissociation constant) for $(\ref{eqn:1})$ as almost 1.0.

How is this possible? If this is true then how can $\ce{Fe^3+}$ ions be in solution for complex formation even if $\ce{CH3COO-}$ ion is not hydrolysed to acetic acid because of such low concentration of $\ce{H^+}$ in solution?


1 Answer 1


Theory guides and experiment decides (I. M. Kolthoff). Sometimes thermodynamics predicts a reaction but it does not occur very fast because its kinetics is slow. If you dissolve iron (III) chloride in pure denionized water, assuming it is from a fresh bottle, it will take hours to form a precipitate of iron hydroxides. Therefore, in order to perform this qualitative test, iron (III) chloride should be freshly made in water. Ten or 15 minutes won't make a difference.

As the linked answer here is slightly incorrect. The main reason to use neutral pH iron (III) chloride is that the carboxylic acid to be tested should be present as carboxylate ion in order to chelate iron (III) rather readily (chemical kinetics).

Same goes for ethylenediaminetetraacetic acid, is a powerful chelating agent. However its chelating power is not that great at low pH. It will also not dissolve in water until you add a few drops of a strong base. Then it is converted into ethylenediaminetetraacetate ion, and this anion can rapidly chelate with many metallic ions.

  • $\begingroup$ thankyou so much for the answer sir, just one thing ,can you confirm if i am understanding this correctly? so acc to you this making soln neutral say by adding few drops of K2CO3 will prevent acetic acid formation thus will enable fe^+3 ions present in soln to effectively form a chelating complex(end product of my eq 1) much faster than it would take for fe+3 ions to hydrolyse thus making the test feasable to perform $\endgroup$
    – davacd
    Commented Jun 11, 2021 at 3:19
  • $\begingroup$ If you add carbonate ion to iron (III) soln, you would see immediate ppt. So, carbonate is out of the question. $\endgroup$
    – ACR
    Commented Jun 11, 2021 at 4:27
  • $\begingroup$ so what do we use to keep the ph of soln neutral $\endgroup$
    – davacd
    Commented Jun 11, 2021 at 4:31
  • $\begingroup$ ow so acc to you freshly made fecl3 is a neutral solution hence no need to add anything else $\endgroup$
    – davacd
    Commented Jun 11, 2021 at 4:34
  • $\begingroup$ i was thinking of something like a buffer to mentain ph if test is to be performed after an hour or so $\endgroup$
    – davacd
    Commented Jun 11, 2021 at 4:35

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