Receptivity (NMR)

In NMR spectroscopy, receptivity refers to the relative detectability of a particular element. Some elements are easily detected, some less so. The receptivity is a function of the abundance of the element's NMR-responsive isotope and that isotope's gyromagnetic ratio (or equivalently, the nuclear magnetic moment). Some isotopes, tritium for example, have large gyromagnetic ratios but low abundance. Other isotopes, for example ¹⁰³Rh, are highly abundant but have low gyromagnetic ratios. Widely used NMR spectroscopies often focus on highly receptive elements: ¹H, ¹⁹F, and ³¹P. ^[1]

Receptivity of Selected Spin 1/2 Nuclei
Isotope	Natural abundance (%)	Magnetogyric Ratio (10⁷ rad⋅s⁻¹⋅T⁻¹)	Receptivity vs ¹³C (R_C)
³H	0	28.5	-
¹H	99	26.8	5700
¹³C	1.11	6.7	1
¹⁹F	100	25.1	4700
³¹P	100	10.8	377
⁷⁷Se	7.58	5.10	3.0^[2]
¹⁰³Rh	100	-0.84	0.18

References

^ R.K. Harris; B.E. Mann, eds. (1978). NMR and the Periodic Table. NY: Academic Press.
^ Duddeck, Helmut (2004). 77Se NMR Spectroscopy and Its Applications in Chemistry. Annual Reports on NMR Spectroscopy. Vol. 52. pp. 105–166. doi:10.1016/S0066-4103(04)52003-3. ISBN 9780125054522.

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[1] R.K. Harris; B.E. Mann, eds. (1978). NMR and the Periodic Table. NY: Academic Press.

[2] Duddeck, Helmut (2004). 77Se NMR Spectroscopy and Its Applications in Chemistry. Annual Reports on NMR Spectroscopy. Vol. 52. pp. 105–166. doi:10.1016/S0066-4103(04)52003-3. ISBN 9780125054522.

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