Why Does Hydrogen Peroxide Fizz Only on Wounds?

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Discussion Overview

The discussion revolves around the reaction of hydrogen peroxide (H2O2) when applied to wounds, specifically addressing the fizzing observed and the underlying chemical processes. Participants explore the nature of the reaction, its implications for sterilization, and the conditions under which fizzing occurs.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested
  • Mathematical reasoning

Main Points Raised

  • One participant presumes that the fizzing is due to the release of O2 and suggests that this oxygen is responsible for killing bacteria.
  • Another participant corrects the initial reaction description, stating that atomic oxygen is the active agent in the reaction, not diatomic O2.
  • There are hypotheses about why hydrogen peroxide only fizzes on wounds, including the presence of chemically active components in the wound, the physical structure of the wound, or the oily coating on normal skin preventing reaction.
  • A participant questions why hydrogen peroxide does not spontaneously revert to water in the bottle over time.
  • Disagreement arises regarding the balanced chemical equation for the reaction, with participants debating the accuracy of the proposed reactions and their implications for understanding the sterilization process.

Areas of Agreement / Disagreement

Participants express differing views on the chemical reactions involved and the nature of the active agents in hydrogen peroxide. There is no consensus on the correct reaction or the interpretation of the fizzing phenomenon.

Contextual Notes

Participants highlight potential limitations in their understanding of the chemical processes, including the need for balanced equations and the stability of reaction intermediates. The discussion reflects varying levels of familiarity with the chemistry involved.

Who May Find This Useful

This discussion may be of interest to those studying chemistry, particularly in the context of redox reactions, as well as individuals curious about the practical applications of hydrogen peroxide in sterilization.

DaveC426913
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Been using [tex]H_2 O_2[/tex] to sterilize a wound. I notice that it fizzes.

1] I presume the bubbles it releases are [tex]O_2[/tex]. i.e. [tex]2 H_2 O_2 > 2H_2 O + O_2[/tex]
2] I further presume it is the [tex]O_2[/tex] that kills the bacteria.

And that makes me wonder:
3] I notice that it only fizzes on my wound - it does not fizz when applied to normal skin (or the container it comes in, or the Q-tip). Although it does fizz when poured into the drain. It seems to zero in on organic material.

I am guessing this is because:
- my skin has an oily (i.e. water repellant) coating that the peroxide can't react on/with, or
- the wound has chemically active components that normal skin will not expose, or
- the wound has physically reactive components - like the miscroscopic nicks in a champagne glass that serve as bubble nurseries (I forget the name)

4] Also, why does it not spontaneously revert to water in the bottle? Even over a long time?


Thoughts?
 
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1.Yes,the reaction u've discribed is incorrect...The correct redox is:

[tex]H_{2}O_{2}\rightarrow H_{2}O+O[/tex]

which means the one atom gets reduced and another oxydated...Note that atomic oxygen is the powerful oxydating agent...So not [itex]O_{2}[/itex] kills bateria (it would be ridiculous,why need hydrogen peroxyde,then),but atomic oxygen...

Daniel.
 
Thank you. I don't think I could have gotten a more comprehensive answer if I'd written the question after reading the answer!

P.S. dexter: you might want to read it too. It specifies pretty much the exact reaction I did:

H2O2 --> H2O + O2

(I think your and their answer are ultimately equivalent, you are just concentrating on a discrete intermediate step).
 
no actually your equation isn't balanced making it wrong. It is a two step reaction as oxygen isn't going to stick around in its monatomic form for long but if it was immediately just diatomic then the air would be as good a bacteriocide as hydrogen peroxide.
 
Last edited:

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