2.10.3 Using Infrared Spectrometry

• Infrared (IR) spectroscopy is a technique used to identify compounds based on changes in vibrations of atoms when they absorb IR of certain frequencies
• A spectrophotometer irradiates the sample with electromagnetic waves in the infrared region and then detects the intensity of the wavelength of IR radiation which goes through the sample
• All organic molecules absorb IR radiation and depending on which energies of radiation are absorbed, bonds between atoms will vibrate by stretching, bending and twisting
• The molecules will only vibrate at a specific frequency
• The resonance frequency is the specific frequency at which the molecules will vibrate to stimulate larger vibrations
• Depending on the rest of the molecule, each vibration will absorb specific wavelengths of IR radiation which are also shown as the reciprocal of the wavelength
  • This unit is called the wavenumber (cm^-1)

• Particular absorbance have characteristic widths (broad or sharp) and intensities (strong or weak)
  • For example, hydrogen bonds cause the O-H bonds in alcohols and carboxylic acids to be broad whereas the C-O bond in carbonyl (C=O) groups have a strong, sharp absorbance peak

• The energies absorbed by different functional groups are given as a range and an unknown compound can be identified by comparing its IR spectrum to the IR spectrum of a known compound

Absorption Range of Bonds Table

• Due to some absorption bands overlapping each other, other analytical techniques such as mass spectroscopy should be used alongside IR spectroscopy to identify an unknown compound

Answer

• • IR spectrum A is propanone and spectrum B is propan-2-ol.
  • In IR spectrum A the presence of a strong, sharp absorption around 1710 cm^-1 corresponds to the characteristic C=O, carbonyl, group in a ketone.
  • In spectrum B the presence of a strong, broad absorption around 3200-3500 cm^-1 suggests that there is an alcohol group present, which corresponds to the -OH group in propan-2-ol.