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Introduction

As each functional group is discussed in future chapters, the spectroscopic properties of that group will be described. For the present, we’ll point out some distinguishing features of the hydrocarbon functional groups already studied and briefly preview some other common functional groups. We should also point out, however, that in addition to interpreting absorptions that are present in an IR spectrum, it’s also possible to get structural information by noticing which absorptions are not present. If the spectrum of a compound has no absorptions at 3300 and 2150 cm–1, the compound is not a terminal alkyne; if the spectrum has no absorption near 3400 cm–1, the compound is not an alcohol; and so on.

Alkanes

The IR spectrum of an alkane is fairly uninformative because no functional groups are present and all absorptions are due to C–H and C–C bonds. Alkane C–H bonds show a strong absorption from 2850 to 2960 cm–1, and saturated C–C bonds show a number of bands in the 800 to 1300 cm–1 range. Since most organic compounds contain saturated alkane-like portions, most organic compounds have these characteristic IR absorptions. The C–H and C–C bands are clearly visible in the three spectra shown previously in Figure 12.21.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Alkenes

Alkenes show several characteristic stretching absorptions. Vinylic =C–H bonds absorb from 3020 to 3100 cm–1, and alkene. Alkenes have characteristic =C–H out-of-plane bending absorptions in the 700 to 1000 cm–1 range, thereby allowing the substitution pattern on a double bond to be determined (Figure 12.23). For example, monosubstituted alkenes such as 1-hexene show strong characteristic bands at 910 and 990 cm–1, and 1,1-disubstituted alkenes ( R2C═ ) have an intense band at 890 cm–1.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Question for Infrared Spectra of Some Common Functional Groups
Try yourself:
Which functional group can be identified by the absence of absorption at 3400 cm–1 in an IR spectrum?
View Solution

Alkynes

Alkynes show a
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Aromatic Compounds 

Aromatic compounds, such as benzene, have a weak C–H stretching absorption at 3030 cm–1, just to the left of a typical saturated C–H band. In addition, they have a series of weak absorptions in the 1660 to 2000 cm–1 range and a series of medium-intensity absorptions in the 1450 to 1600 cm–1 region. These latter absorptions are due to complex molecular motions of the entire ring. The C–H out-of-plane bending region for benzene derivatives, between 650 to 1000 cm–1, gives valuable information about the ring’s substitution pattern, as it does for the substitution pattern of alkenes (Figure 12.24).
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSCThe IR spectrum of phenylacetylene, shown in Figure 12.29 at the end of this section, gives an example, clearly showing the following absorbances: ≡C–H stretch at 3300 cm–1, C–H stretches from the benzene ring at 3000 to 3100 cm–1, C═C stretches of the benzene ring between 1450 and 1600 cm–1, and out-of-plane bending of the ring’s C–H groups, indicating monosubstitution at 750 cm–1.

Alcohols

The O–H functional group of alcohols is easy to spot. Alcohols have a characteristic band in the range 3400 to 3650 cm–1 that is usually broad and intense. Hydrogen bonding between O–H groups is responsible for making the absorbance so broad. If an O–H stretch is present, it’s hard to miss this band or to confuse it with anything else.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSCCyclohexanol (Figure 12.25) is a good example.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Amines

The N–H functional group of amines is also easy to spot in the IR, with a characteristic absorption in the 3300 to 3500 cm–1 range. Although alcohols absorb in the same range, an N–H absorption band is much sharper and less intense than an O–H band.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSCPrimary amines (R–NH2) have two absorbances—one for the symmetric stretching mode and one for the asymmetric mode (Figure 12.26). Secondary amines (R2N–H) only have one N–H stretching absorbance in this region.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Carbonyl Compounds 

Carbonyl functional groups are the easiest to identify of all IR absorptions because of their sharp, intense peak in the range 1670 to 1780 cm–1. Most important, the exact position of absorption within this range can often be used to identify the exact kind of carbonyl functional group—aldehyde, ketone, ester, and so forth.

Question for Infrared Spectra of Some Common Functional Groups
Try yourself:
Which functional group can be easily identified in the infrared spectrum due to its sharp and intense peak?
View Solution

Aldehydes

Saturated aldehydes absorb at 1730 cm–1; aldehydes next to either a double bond or an aromatic ring absorb at 1705 cm–1.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

The C–H group attached to the carbonyl is responsible for the characteristic IR absorbance for aldehydes at 2750 and 2850 cm–1 (Figure 12.27). Although these are not very intense, the absorbance at 2750 cm–1 is helpful when trying to distinguish between an aldehyde and a ketone.

Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

ketones

Saturated open-chain ketones and six-membered cyclic ketones absorb at 1715 cm–1. Ring strain stiffens the C═O bond, making five-membered cyclic ketones absorb at 1750 cm–1 and four-membered cyclic ketones absorb at 1780 cm–1, about 20 to 30 cm–1 lower than the corresponding saturated ketone.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Esters

Saturated esters have a C═O absorbance at 1735 cm–1 and two strong absorbances in the 1300 to 1000 cm–1 range from the C–O portion of the functional group. Like other carbonyl functional groups, esters next to either an aromatic ring or a double bond absorb at 1715 cm–1, about 20 to 30 cm–1 lower than a saturated ester.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Solved Examples

Example 1: Identifying Functional Groups from an IR Spectrum 
The IR spectrum of an unknown compound is shown in Figure 12.28. What functional groups does the compound contain?
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSCAns: Strategy:
All IR spectra have many absorptions, but those useful for identifying specific functional groups are usually found in the region from 1500 cm–1 to 3300 cm–1. Pay particular attention to the carbonyl region (1670 to 1780 cm–1), the aromatic region (1660 to 2000 cm–1), the triple-bond region (2000 to 2500 cm–1), and the C–H region (2500 to 3500 cm–1).
Solution:
The spectrum shows an intense absorption at 1725 cm–1 due to a carbonyl group (perhaps an aldehyde, –CHO), a series of weak absorptions from 1800 to 2000 cm–1 characteristic of aromatic compounds, and a C–H absorption near 3030 cm–1, also characteristic of aromatic compounds. In fact, the compound is phenylacetaldehyde.
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC

Example 2: Predicting IR Absorptions of Compounds
Where might the following compounds have IR absorptions?
Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSCAns:
Strategy:
Identify the functional groups in each molecule, and then check Table 12.1 to see where those groups absorb.
Solution: (a) Absorptions: 3400 to 3650 cm–1 (O–H), 3020 to 3100 cm–1 (=C–H), 1640 to 1680 cm–1 (C═C ). This molecule has an alcohol O–H group and an alkene double bond.
(b) Absorptions: 3300 cm–1 (≡C–H ), 2100 to 2260 cm–1 (C≡C ), 1735 cm–1 (C═O ). This molecule has a terminal alkyne triple bond and a saturated ester carbonyl group.

The document Infrared Spectra of Some Common Functional Groups | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Infrared Spectra of Some Common Functional Groups - Chemistry Optional Notes for UPSC

1. What are alkanes?
Ans. Alkanes are organic compounds consisting of carbon and hydrogen atoms arranged in a straight or branched chain structure. They are saturated hydrocarbons, meaning they contain only single bonds between carbon atoms. Alkanes are commonly known as paraffins and are the simplest and most common type of hydrocarbons.
2. What are alkenes?
Ans. Alkenes are unsaturated hydrocarbons that contain at least one carbon-carbon double bond. They have the general formula CnH2n and are characterized by their reactivity due to the presence of the double bond. Alkenes are commonly used as starting materials for the synthesis of various organic compounds, such as plastics, solvents, and pharmaceuticals.
3. What are alkynes?
Ans. Alkynes are unsaturated hydrocarbons that contain at least one carbon-carbon triple bond. They have the general formula CnH2n-2 and are characterized by their high reactivity. Alkynes are often used in chemical reactions to form various functional groups and are also used as starting materials for the synthesis of organic compounds.
4. What are aromatic compounds?
Ans. Aromatic compounds are cyclic hydrocarbons that exhibit a unique stability and reactivity due to their conjugated pi-electron system. They are characterized by the presence of a benzene ring or other aromatic rings in their structure. Aromatic compounds are widely used in the production of dyes, fragrances, pharmaceuticals, and polymers.
5. What are carbonyl compounds?
Ans. Carbonyl compounds are organic compounds that contain a carbonyl group, which is a carbon atom double-bonded to an oxygen atom. This functional group imparts distinct chemical properties to carbonyl compounds, making them important in various biological and industrial processes. Examples of carbonyl compounds include aldehydes, ketones, carboxylic acids, and esters.
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