December 22, 2024, 08:31:15 PM
Forum Rules: Read This Before Posting


Topic: Some assistance with organic redox?  (Read 3030 times)

0 Members and 1 Guest are viewing this topic.

Offline BROe

  • Regular Member
  • ***
  • Posts: 22
  • Mole Snacks: +0/-0
Some assistance with organic redox?
« on: February 21, 2016, 10:58:07 AM »
I recently learned about organic reactions and thought I'd try my hand at the oxidation of isopropyl alcohol to acetone. The oxidizer I'm using is acidified (with H2SO4) potassium permanganate simply because it is the most available to me. I did a preliminary run of the reaction to acquaint myself with how it works and looks (did not use stoichiometric amounts) and it appeared to work well, I observed the deep purple color of the permanganate go from clear to opaque, then to brown, and finally colorless. I believe that the brown color came from MnO2 and then the colorless solution being solvated Mn2+ (probably in the form of MnSO4).

Now that I know the reaction works, I would like to attempt it using stoichiometric amounts. This is where I get a bit fuzzy on the reaction stoich as I never formally learned organic redox and was only taught to memorize that secondary alcohols will react with oxidizers to form ketones (obviously this only takes me so far). I looked around on the internet about how to balance these types of redox reactions and I think I may have it right. I would greatly appreciate it if anyone with more experience than myself would make sure I'm on the right track and possibly point out anything that I may be missing.

The website I used to learn how to balance organic redox:
http://web.pdx.edu/~wamserc/C335W02/redox.htm

My Work: (shows IPA to acetone)

Oxidation: CH3CHOHCH3  :rarrow: CH3COCH3 + 2H

Reduction: MnO4- + 3H+ + 5H  :rarrow: Mn2+ + 4H2O

I then combined the two reactions such that the arbitrary H atoms would cancel ("multiplying" oxidation by 5 and reduction by 2), and I was left with the final equation
5CH3CHOHCH3 + 2MnO4- + 6H+ :rarrow: 2Mn2+ + 8H2O + 5CH3COCH3


Offline AWK

  • Retired Staff
  • Sr. Member
  • *
  • Posts: 7976
  • Mole Snacks: +555/-93
  • Gender: Male
Re: Some assistance with organic redox?
« Reply #1 on: February 21, 2016, 03:25:18 PM »
Reaction is correctly balanced (this may be checked by mass and charge balance).

For more complicated organic structures you can simplify work using only part of structuce that is oxidized or reduced, eg:
CHOH  :rarrow: CO + H2O (your case)

COOH  :rarrow: CH3 + H2O

CH=CH  :rarrow: 2CHO or 2COOH
and so on.
In organic Chemistry most oxidation with KMnO4 undergo without acid (MnO2 is formed) with better yield of needed compound.

http://chemwiki.ucdavis.edu/Core/Organic_Chemistry/Reactions/Oxidation_and_Reduction_Reactions/Oxidation_of_Organic_Molecules_by_KMnO4
AWK

Offline BROe

  • Regular Member
  • ***
  • Posts: 22
  • Mole Snacks: +0/-0
Re: Some assistance with organic redox?
« Reply #2 on: February 21, 2016, 03:48:49 PM »
Thanks for reading through my huge block of text, I know it was alot.

According to the link posted, MnO4- will oxidize an alcohol under essentially any conditions, be they alkaline, acidic, or neutral. So out of the three is a neutral pH then the best way to oxidize IPA with permanganate to get the highest yield? Also does this hold true for other organic oxidations or is there some way of determining what general pH will give a better yield?

Offline AWK

  • Retired Staff
  • Sr. Member
  • *
  • Posts: 7976
  • Mole Snacks: +555/-93
  • Gender: Male
Re: Some assistance with organic redox?
« Reply #3 on: February 21, 2016, 04:08:20 PM »
For high yield specific oxidation of organic compounds more oxidizer are used (see additional reading in UCDAVIS link above), search also for oxidation with osmium tetroxide (OsO4), peracids oxidation or catalytic oxidation.
AWK

Offline BROe

  • Regular Member
  • ***
  • Posts: 22
  • Mole Snacks: +0/-0
Re: Some assistance with organic redox?
« Reply #4 on: March 15, 2016, 03:41:26 PM »
Thanks for all the help, I ran the reaction a few weeks ago both with and without using acid and using just the oxidizer (MnO4-) and using no acid really did seem to improve the yield.
A few things that I noticed was that the reaction required a large amount of oxidizer for the amount of product produced, however that just seems to be due to the high molar mass of the oxidizer compared to the low molar mass of the desired product. Also, in the version of the oxidation that doesn't use acid, aqueous KOH is produced. If I run the reaction at the boiling point of acetone (≈60C) would I have to worry about damage to my flask over time due to the corrosive effect of KOH on glass?

*Edit*: Just thought of this, one of the byproducts of the reaction without acid is MnO2, which can used as an oxidizing agent, so could this compound be used as an oxidizer in further organic syntheses if I were to recover it?
« Last Edit: March 15, 2016, 04:06:13 PM by Mycilius »

Sponsored Links