Textbook Question
Draw the ¹³C NMR spectrum you would expect to see for each of the molecules shown.
(a)
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15. Analytical Techniques:IR, NMR, Mass Spect
Carbon NMR
4:01 minutesProblem 69e
Textbook Question
Sketch the following spectra that would be obtained for 2-chloroethanol:
e. The four parts of a DEPT 13C NMR spectrum.
Verified step by step guidance1
Understand the DEPT 13C NMR technique: DEPT (Distortionless Enhancement by Polarization Transfer) is used to differentiate between CH3, CH2, CH, and quaternary carbons in a molecule. It involves four spectra: DEPT-45, DEPT-90, DEPT-135, and a broadband decoupled spectrum showing all carbons.
Analyze the structure of 2-chloroethanol: The molecule contains two carbons. One is a CH2 group bonded to chlorine, and the other is a CH2 group bonded to hydroxyl (-OH). There are no CH or CH3 groups in this molecule.
Interpret the DEPT spectra: In DEPT-45, all carbons with attached hydrogens (CH, CH2, CH3) appear as positive peaks. In DEPT-90, only CH carbons appear. In DEPT-135, CH and CH3 carbons appear as positive peaks, while CH2 carbons appear as negative peaks. The broadband decoupled spectrum shows all carbons, including quaternary carbons.
Sketch the DEPT spectra for 2-chloroethanol: Since the molecule contains only CH2 carbons, the DEPT-45 spectrum will show two positive peaks, the DEPT-90 spectrum will show no peaks, the DEPT-135 spectrum will show two negative peaks, and the broadband decoupled spectrum will show two positive peaks.
Compare the provided images (A, B, C, D) with the expected DEPT spectra for 2-chloroethanol: Identify the image that matches the description above, where CH2 peaks are positive in DEPT-45, negative in DEPT-135, and present in the broadband decoupled spectrum, while no peaks appear in DEPT-90.
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Video duration:
4mKey Concepts
Here are the essential concepts you must grasp in order to answer the question correctly.
DEPT NMR Spectroscopy
DEPT (Distortionless Enhancement by Polarization Transfer) NMR is a technique used to differentiate between carbon types in a molecule. It provides information about the number of hydrogen atoms attached to each carbon atom, allowing for the identification of CH3, CH2, and CH groups. This is crucial for interpreting the structure of organic compounds like 2-chloroethanol.
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Carbon Types in Organic Molecules
In organic chemistry, carbon atoms can be classified based on their bonding: CH3 (methyl), CH2 (methylene), and CH (methine). Each type has distinct NMR signals, which help in determining the molecular structure. Understanding these types is essential for accurately sketching the DEPT NMR spectrum for compounds such as 2-chloroethanol.
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Interpreting NMR Spectra
Interpreting NMR spectra involves analyzing the peaks and their intensities to deduce the molecular structure. In DEPT spectra, the presence or absence of signals for different carbon types indicates how many hydrogen atoms are attached. This skill is vital for accurately sketching the DEPT spectrum for 2-chloroethanol and understanding its chemical environment.
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