Question

How can I report `""^13"C"` NMR data?

Answer 1

In a typical lab report, I would expect someone to report the following data:

• Number of unique carbons in the molecular formula
• Number of distinct `""^13 C` peaks seen in the spectrum
• Presence or absence of symmetry (such as in a benzene ring with two identical substituents para or meta to each other)
• Chemical shifts of each unique carbon in `"ppm"`
• Proposed carbon types (e.g. `"C sp"^3` (likely alkyl) bonded to carbonyl `"C sp"^2`); this can be an educated guess
• Your carbon labels (e.g. `"C"_A, "C"_B`, etc.)

This is how I tended to do it when I took O-Chem:

Based on the table, I said that `"C"_A` was the methyl attached to the carbonyl, `"C"_F`, `"C"_E`, and `"C"_D` were the aromatic carbons, starting from the top carbon on the ring going counterclockwise as well as their symmetric counterparts on the opposite side of the symmetry axis, `"C"_C` was the aromatic carbon directly connected to the carbonyl carbon, and `"C"_B` was the carbonyl carbon.

In published research papers though, you should not have any row borders (except those below a heading), nor outermost column borders, at least by ACS convention. Also, you would need a table caption at the top, explaining briefly what the table is showing.

Answer 2

For a lab report, you follow the format specified by your instructor.

Explanation:

If your instructor has not specified a format, Truong-Son N. has provided you with an excellent template in the preceding answer.

Research journals usually have their own formats for the reporting of `""^(13)"C"` NMR data.

These include rules such as:

• The peak shifts should be rounded off to the nearest 0.1 ppm except when greater precision is needed to distinguish closely spaced peaks.
• Information about numbers of hydrogen atoms may be included, in order of increasing number of attached hydrogens.
• Detailed peak assignments should not be included in the Experimental section (they go in the Discussion section).

The usual format is:

`""^(13)"C"` NMR (frequency, solvent) `δ` in decreasing order of frequency.

Thus, you might see spectra reported in formats such as:

`""^(13)"C"` NMR (50 MHz, `"CDCl"""_3`) `δ` 145.4, 129.3, 128.5, 29.1, 16.0

`""^(13)"C"` NMR (50 MHz, `"CDCl"""_3`, DEPT) `δ` 145.4, 129.3, 128.5, 29.1, 16.0

`""^(13)"C"` NMR (50 MHz, `"CDCl"""_3`, DEPT) `δ` `"C"` 145.4, `"CH"` 128.5, 128.9, 129.3, `"CH"_2` 29.1, `"CH"_3` 16.0