Open AccessComment on “On the Difficulties and Pitfalls with the Analysis of Solid‑State 13C NMR Spectra in Graphitic Materials”
Author(s) -
Anastasia Vyalikh,
А. В. Окотруб,
Victor O. Koroteev,
L. G. Bulusheva
Publication year - 2020
Publication title -
applied magnetic resonance
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.206
H-Index - 44
eISSN - 1613-7507
pISSN - 0937-9347
DOI - 10.1007/s00723-020-01215-z
Subject(s) - spectral line , solid state physics , magic angle spinning , anisotropy , solid state nuclear magnetic resonance , interpretation (philosophy) , dipole , solid state , magic angle , nmr spectra database , nuclear magnetic resonance , materials science , physics , chemistry , condensed matter physics , computer science , optics , quantum mechanics , programming language
A recent paper on solid-state 13 C nuclear magnetic resonance in graphitic materials reports on the difficulties with the interpretation of the spectra and presents alternative methods to obtain informative experimental data. Therein, special emphasis is placed on the role of dipole–dipole interactions in the case of 13 C-enriched samples and on the assignment of the 13 C spectral components beyond the common “graphitic range”. Here, we show that the consideration of the experimental conditions, namely, the speed of magic angle spinning, plays a more important role in the data interpretation. Further, we provide the experimental and theoretical evidences that the appearance of the 13 C resonances shifted upfield from the typical sp 2 -hybridized carbon range is not surprising, but rather exhibits a characteristic feature of the graphitic materials with specific morphology. Finally, we show that analysis of the anisotropy of the chemical shift tensor is informative even in the case of very broad 13 C spectra and supports the microscopy observations.