Oxidation of iron and galvanised iron in bleach

AI Thread Summary
A laboratory experiment with plain carbon steel in bleach resulted in a magenta solution with significant ferrous hydroxide deposits. The unusual color is speculated to be linked to manganese, though its exact cause remains unclear. Additionally, a large amount of gas was observed at the solution's surface, likely due to the decomposition of sodium hypochlorite, which is catalyzed by the presence of metals like iron. The discussion highlights that the decomposition process may occur independently of iron oxidation, raising questions about the role of different steel types in gas production. The findings suggest further investigation is needed to understand the chemical interactions at play.
Hannichan
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In a laboratory experiment I have tested plain carbon steel in a beaker of bleach (sodium hypochlorite), immersed for a week.

The result is a magenta-coloured solution with a large amount of ferrous hydroxide deposits.

Q1) I haven't been able to find anywhere anything that might be causing this magenta colour. Fe(II) is meant to be green, so is Fe(II) Chloride, Fe(OH)2 is brown and insoluble... so why is is deep magenta?

Q2) There is also a large amount of trapped gas at the surface of the solution. Why is this? The most likely reduction reaction is the ClO- + H2O+2e- => Cl- +2OH-, followed by O2+H2O+4e- => 4OH-. In both of these cases, no gas is involved, or gas is actually used up.
I have found that sodium hypochlorite decomposes into O2 gas (2NaClO=>2NaCl+O2), which is catalysed by the presence of metals, but WHY is this the case? In this equation the oxygen is oxidised, but in my situation it should be the iron being oxidised and therefore I need a reduction reaction. So where is the gas coming from?

Thank you!
(2nd year engineering student)
 
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No idea about the magenta - it is definitely not an iron compound. Color makes me think about Mn, and it is not an uncommon element in steel - but even then I am not convinced it would be oxidized to permanganate.

Decomposition can occur as a side process, occurring completely separately from the iron oxidation.
 
Have you used laboratory grade pure chemical or commercial bleach ?
 
Borek said:
No idea about the magenta - it is definitely not an iron compound. Color makes me think about Mn, and it is not an uncommon element in steel - but even then I am not convinced it would be oxidized to permanganate.

Decomposition can occur as a side process, occurring completely separately from the iron oxidation.

Thanks Borek. Do you know why the presence of iron catalyses the decomposition?

Re: the magenta- my lecturer apparently mumbled something to someone else in my lab group about the fact that it was due to the presence of some kind of iron compound. No idea what...Maybe he was making it up?? But it was definitely extremely pink/magenta, not just a small hint due to trace elements of Mn. Strange
 
Nidum said:
Have you used laboratory grade pure chemical or commercial bleach ?
Commercial bleach
 
Borek said:
Decomposition can occur as a side process, occurring completely separately from the iron oxidation.

Also there were a lot more bubbles present in the beaker with plain carbon steel, compared to the beaker with galvanised steel, although theoretically the reduction reaction would be the same right?
 

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