13.9: Uses of ¹H NMR Spectroscopy

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NMR is used to help identify the product of nearly every reaction run in the laboratory. For example, we said in Section 8.5 that hydroboration–oxidation of alkenes occurs with non-Markovnikov regiochemistry to yield the less highly substituted alcohol. With the help of NMR, we can now prove this statement.

Does hydroboration–oxidation of methylenecyclohexane yield cyclohexylmethanol or 1-methylcyclohexanol?

Methylenecyclohexane reacts first with borane and tetrahydrofuran, then hydrogen peroxide and hydroxide to form cyclohexylmethanol or 1-methylcyclohexanol; question mark near structures indicates product is unknown, could be either.

The ¹H NMR spectrum of the reaction product is shown in Figure \(\PageIndex{1}\)a. The spectrum shows a two-proton peak at 3.40 δ, indicating that the product has a –CH₂– group bonded to an electronegative oxygen atom (–CH₂OH). Furthermore, the spectrum shows no large three-proton singlet absorption near 1 δ, where we would expect the signal of a quaternary –CH₃ group to appear. (Figure \(\PageIndex{1}\)b) gives the spectrum of 1-methylcyclohexanol, the alternative product.) Thus, it’s clear that cyclohexylmethanol is the reaction product.

The 1 H N M R spectrum of cyclohexylmethanol (peaks at 0, 0.9, 1.2, 1.4, 1.7, 2.8. and 3.4) and 1-methylcyclohexanol (peaks at 0, 1.1, and 1.4). — Figure \(\PageIndex{1}\): (a) The ¹H NMR spectrum of cyclohexylmethanol, the product from hydroboration–oxidation of methylenecyclohexane, and (b) the ¹H NMR spectrum of 1-methylcyclohexanol, the possible alternative reaction product.

Exercise \(\PageIndex{1}\)

How could you use ¹H NMR to determine the regiochemistry of electrophilic addition to alkenes? For example, does addition of HCl to 1-methylcyclohexene yield 1-chloro-1-methylcyclohexane or 1-chloro-2-methylcyclohexane?

Answer: 1-Chloro-1-methylcyclohexane has a singlet methyl absorption.

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