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Chemical Shifts in ¹H NMR Spectroscopy | Chemistry Optional Notes for UPSC PDF Download

Chemical Shifts in ¹H NMR Spectroscopy

As mentioned previously, differences in chemical shifts are caused by the small local magnetic field of electrons surrounding different nuclei. Nuclei that are more strongly shielded by electrons require a higher applied field to bring them into resonance so they absorb on the right side of the NMR chart. Nuclei that are less strongly shielded need a lower applied field for resonance so they absorb on the left of the NMR chart.

Most 1H chemical shifts fall within the range 0 to 10 δ, which can be divided into the five regions shown in Table 13.2. By remembering the positions of these regions, it’s often possible to tell at a glance what kinds of protons a molecule contains.
Chemical Shifts in ¹H NMR Spectroscopy | Chemistry Optional Notes for UPSC Table 13.3 shows the correlation of 1H chemical shift with electronic environment in more detail. In general, protons bonded to saturated, sp3-hybridized carbons absorb at higher fields, whereas protons bonded to sp2-hybridized carbons absorb at lower fields. Protons on carbons that are bonded to electronegative atoms, such as N, O, or halogen, also absorb at lower fields.

Table 13.3 Correlation of 1H Chemical Shifts with Environment
Chemical Shifts in ¹H NMR Spectroscopy | Chemistry Optional Notes for UPSC

Solved Example

Example: Predicting Chemical Shifts in 1H NMR Spectra
Methyl 2,2-dimethylpropanoate (CH3)2CCO2CH3 has two peaks in its 1H NMR spectrum. What are their approximate chemical shifts?
Ans: Strategy: 
Identify the types of hydrogens in the molecule, and note whether each is alkyl, vinylic, or next to an electronegative atom. Then predict where each absorbs, using Table 13.3 if necessary.
Solution: The –OCHprotons absorb around 3.5 to 4.0 δ because they are on carbon bonded to oxygen. The (CH3)3C– protons absorb near 1.0 δ because they are typical alkane-like protons.

The document Chemical Shifts in ¹H NMR Spectroscopy | Chemistry Optional Notes for UPSC is a part of the UPSC Course Chemistry Optional Notes for UPSC.
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FAQs on Chemical Shifts in ¹H NMR Spectroscopy - Chemistry Optional Notes for UPSC

1. What are chemical shifts in ¹H NMR spectroscopy?
Ans. Chemical shifts in ¹H NMR spectroscopy refer to the position of a proton signal in the NMR spectrum, which is influenced by the chemical environment of the proton. It is measured in parts per million (ppm) and provides information about the chemical structure and environment of a molecule.
2. How are chemical shifts determined in ¹H NMR spectroscopy?
Ans. Chemical shifts in ¹H NMR spectroscopy are determined by comparing the frequency of a proton signal to a reference compound. The reference compound is typically tetramethylsilane (TMS), which is assigned a chemical shift of 0 ppm. The difference in frequency between the proton signal and the reference compound is then calculated and reported as the chemical shift.
3. What factors influence chemical shifts in ¹H NMR spectroscopy?
Ans. Several factors influence chemical shifts in ¹H NMR spectroscopy, including electronegativity, hybridization, neighboring functional groups, and magnetic anisotropy. Electronegative atoms, such as oxygen or nitrogen, can cause deshielding and shift the signal downfield (to the left), while electron-donating groups can cause shielding and shift the signal upfield (to the right).
4. How can chemical shifts be used to determine the structure of a molecule in ¹H NMR spectroscopy?
Ans. Chemical shifts provide valuable information about the connectivity and environment of protons in a molecule, which can be used to determine its structure. By comparing the chemical shifts of different protons and analyzing their splitting patterns, chemists can deduce the number of hydrogen atoms, the types of neighboring functional groups, and the overall connectivity of the molecule.
5. What are the common chemical shift ranges observed in ¹H NMR spectroscopy?
Ans. In ¹H NMR spectroscopy, the common chemical shift ranges for protons are as follows: aliphatic protons (0-3 ppm), alkene protons (4.6-6.0 ppm), aromatic protons (6.0-8.5 ppm), and proton attached to electronegative atoms (10-13 ppm). However, these ranges can vary depending on the specific chemical structure and environment of the protons being analyzed.
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