Analysis of reduced paramagnetic shifts as an effective tool in NMR spectroscopy.
Alexander A PavlovValentin V NovikovIgor A NikovskiyElizaveta K MelnikovaYulia V NelyubinaDmitry Y AleshinPublished in: Physical chemistry chemical physics : PCCP (2022)
A recently introduced concept of reduced paramagnetic shifts (RPS) in NMR spectroscopy is applied here to a series of paramagnetic complexes with different metal ions, such as iron(II), iron(III) and cobalt(II), in different coordination environments of N-donor ligands, including a unique trigonal-prismatic geometry that is behind some record single-molecule magnet behaviours. A simple, almost visual analysis of the chemical shifts as a function of temperature, which is at the core of this approach, allows for a correct signal assignment and evaluation of the anisotropy of the magnetic susceptibility, the key indicator of a good single molecule magnet, that often cannot be done using traditional techniques rooted in quantum chemistry and NMR spectroscopy. The proposed approach thus emerged as a powerful alternative in deciphering the NMR spectra of paramagnetic compounds for applications in data processing and storage, magnetic resonance imaging and structural biology.
Keyphrases
- single molecule
- magnetic resonance imaging
- atomic force microscopy
- living cells
- high resolution
- magnetic resonance
- computed tomography
- iron deficiency
- big data
- electronic health record
- quantum dots
- contrast enhanced
- machine learning
- mass spectrometry
- density functional theory
- reduced graphene oxide
- water soluble
- diffusion weighted imaging
- data analysis
- monte carlo