Manuel Cordova^1*, Pinelopi Moutzouri¹, Bruno Simões de Almeida¹, Daria Torodii¹, Lyndon Emsley^1*

1 Institut des Sciences et Ingénierie Chimiques, École Polytechnique Fédérale de Lausanne (EPFL), CH-1015 Lausanne, Switzerland

* Corresponding authors emails: manuel.cordova@epfl.ch, lyndon.emsley@epfl.ch

DOI10.24435/materialscloud:a7-59 [version v1]

Publication date: Dec 22, 2022

How to cite this record

Manuel Cordova, Pinelopi Moutzouri, Bruno Simões de Almeida, Daria Torodii, Lyndon Emsley, Pure isotropic proton NMR spectra in solids using deep learning, Materials Cloud Archive 2022.180 (2022), https://doi.org/10.24435/materialscloud:a7-59

Description

The resolution of proton solid-state NMR spectra is usually limited by broadening arising from dipolar interactions between spins. Magic-angle spinning alleviates this broadening by inducing coherent averaging. However, even the highest spinning rates experimentally accessible today are not able to completely remove dipolar interactions. Here, we introduce a deep learning approach to determine pure isotropic proton spectra from a two-dimensional set of magic-angle spinning spectra acquired at different spinning rates. Applying the model to 8 organic solids yields high-resolution 1H solid-state NMR spectra with isotropic linewidths in the 50-400 Hz range.

Materials Cloud sections using this data

Files

File name	Size	Description
code.zip MD5md5:1063ccb35b855825414891e088d2527c	40.4 MiB	Python code used to train and use the model and pre-trained model
MAS_datasets.zip MD5md5:1cf1c48691243aa4f1570313a26b8fab	13.0 MiB	Datasets of variable-rate MAS 1H NMR experiments on which the model is applied
assignment_experiments.zip MD5md5:ec2e06aef2effca4210ca36cab4c4889	263.8 MiB	NMR experiments used to determine the assignment of the proton spectra
probabilistic_assignment.zip MD5md5:c6813b6bd845a76bd956f15b6555a12a	182.2 KiB	Assignment probabilities of the carbon chemical shifts of molnupiravir
Quantum_espresso.zip MD5md5:c69af26fad5f5f72293b68479583d471	47.7 KiB	Quantum ESPRESSO DFT chemical shift computations to assign chemical shifts of MDMA hydrochloride

License

Files and data are licensed under the terms of the following license: Creative Commons Attribution Share Alike 4.0 International.
Metadata, except for email addresses, are licensed under the Creative Commons Attribution Share-Alike 4.0 International license.

External references

Keywords

MARVEL/DD1 machine learning NMR resolution