How does a catalyst make Hydrogen Peroxide's decomposition quicker? What is actually happening?

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How does a catalyst make Hydrogen Peroxide's decomposition quicker? What is actually happening?

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Answer 1 · 2015-05-10T13:41:07

A catalyst makes the decompostition reaction of hydrogen peroxide faster because it provides an alternative pathway with a lower activation energy for the reaction to take.

Activation energy is just a term used to express the minimum energy required in order for a reaction to take place.

If no catalyst is present, hydrogen peroxide will decompose at a very, very slow rate - I think its concentration will drop by 10% per year.

![http://www.middleschoolchemistry.com/multimedia/chapter6/lesson5]( useruploads.socratic.org )

When a catalyst is added, an alternative pathway through which the reaction can form water and oxygen gas is introduced. The speed of a catalyzed reaction will increase because this alternative pathway has a lower activation energy.

Here's what an alternative pathway means. For example, let's say you add potassium iodide, $K I$ $KI$ , to a hydrogen peroxide solution.

Potassium iodide will dissociate completely to give potassium ions, $K^{+}$ $K^(+)$ , and iodide ions, $I^{-}$ $I^(-)$ . The decomposition reaction will now take place in two steps

$(1) : H_{2} O_{2 (a q)} + I_{(a q)}^{-} \to O I_{(a q)}^{-} + H_{2} O_{(l)}$ $color(blue)((1)):" " H_2O_(2(aq)) + I_((aq))^(-) -> OI_((aq))^(-) + H_2O_((l))$

$(2) : H_{2} O_{2 (A q)} + O I_{(a q)}^{-} \to H_{2} O_{(l)} + O_{2 (g)} + I_{(a q)}^{-}$ $color(blue)((2)): " " H_2O_(2(Aq)) + OI_((aq))^(-) -> H_2O_((l)) + O_(2(g)) + I_((aq))^(-)$

An iodide ion will react with a hydrogen peroxide to produce water and a hypoiodite ion, $O I^{-}$ $OI^(-)$ . Then, a hypoiodite ion will react with another hydrogen peroxide molecule to produce water, oxygen gas, and a iodide ion.

That's why a catalyst is never consumed in a reaction - it is reformed at the end of the multi-step reaction.

Adding equations $(1)$ $color(blue)((1))$ and $(2)$ $color(blue)((2))$ together will get the overall reaction

$2H_2O_(2(aq)) + cancel(I_((aq))^(-)) + cancel(OI_((aq))^(-)) -> cancel(OI_((aq))^(-)) + 2H_2O_((l))+ O_(2(g)) + cancel(I_((aq))^(-))$

In this case, the activation energy for the potassium iodide-catalyzed reaction is $"56 kJ/mol"$ . The activation energy of the uncatalyzed reaction is $"75 kJ/mol"$ .

Lower activation energy $->$ faster reaction.

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How does a catalyst make Hydrogen Peroxide's decomposition quicker? What is actually happening?

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