Organic Chemistry: There are only FOUR important IR peaks….that’s IT

Amazingly enough, IR is not used much by professional organic chemists.  This is because all IR can show is different functional groups.  Thus, IR cannot tell the difference between any of the molecules shown below:

All of the molecules above will show an OH peak and various C-H stretches, but each spectra will look striking similar.  Hence, we should recognize the limits of the instrument and not try to use it for more than it is intended.  Further, there are really only four peaks in an IR that we look for to tell us something about our unknown molecule.  Here, we show them in order of importance.

1)           Carbonyl peak (1750-1650cm-1):  This will be a very sharp, prominent peak and shows that a carbonyl is present in somewhere in your unknown molecule.  What is less obvious is which type of carbonyl it is.  It is not as easy to distinguish between ketones, esters, aldehydes, ect.

2)           OH peak (3500-3200cm-1): This is a large, broad stretch which cannot be mistaken for any other functionality.  One problem to be aware of is that the OH of water will also show up here, in the event that your unknown is not totally dry.  Remember, that this can be from an alcohol OH or a carboxylic acid OH.

3)           C-O peak (1300-1040cm-1): Usually a large, sharp peak, this can be from an alcohol, carboxylic acid, ether, or an ester.

4)           Nitriles (2250-2230cm-1) and alkynes (2100-2280cm-1) peaks: Usually rather small peaks, but easy to spot as they are the only peaks in that area.

For more help with this and other organic chemistry topics, please go to organic chemistry

Dr. Mike Pali got a bachelors degree in chemistry from Binghamton University, a masters degree in organic chemistry from the University of Arizona and a Ph.D. in bio-organic chemistry from the University of Arizona. His research focus was on novel pain killers which were more potent than morphine but designed to have fewer side effects. There may even be a patent or two that came out of it. Prior to all of this, he was a chemist at Procter and Gamble. After all of that, he (briefly) worked as a post-doctoral assistant at Syracuse University, working on novel organic light-emitting diodes (OLEDs). In between, he did NOT compete at the 1996 Olympics, make the Atlanta Braves opening day roster, or become the head coach of the Indiana Pacers, as he had intended. #fail During this entire time, he always loved helping students, especially if they were struggling with organic chemistry. In 2006, Dr. Pali founded AceOrganicChem.com in order to make learning organic chemistry fast and easy. 14 years and about 60,000 students later we are still helping students to learn organic chemistry one reaction at a time at https://www.aceorganicchem.com