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April 12, 2026

Eu(FOD) 3 as a shift regent ameliorates the 1 H NMR assignments of matrine-type quinolizidine alkaloids

Key Points

The aim is to improve 1H NMR assignments of matrine-type quinolizidine alkaloids by using Eu(FOD)3 as a shift reagent.
Evaluated different solvents for optimal conditions
Adjusted molar ratios of Eu(FOD)3
Tested varying field strengths for NMR analysis
Used sophocarpine as a model alkaloid for demonstration
Achieved complete NMR assignments of matrine-type QAs
Rendered all protons clearly distinguishable
Successfully resolved overlapping signals from CH2 and CH groups

Abstract

Matrine-type quinolizidine alkaloids (QAs) exhibit complex 1H NMR spectra due to overlapping signals from their CH2 and CH groups, which were crucial for elucidating their structures. Eu(FOD)3 was employed to resolve these overlaps and achieve complete NMR assignments using sophocarpine as a model. Optimal conditions were established by evaluating solvent, molar ratio, and field strength, successfully rendering all protons distinguishable and accurately assignable. This study demonstrates that shift reagents remain valuable for resolving resonance overlap in structurally related QAs.

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Eu(FOD) 3 as a shift regent ameliorates the 1 H NMR assignments of matrine-type quinolizidine alkaloids

Key Points

Abstract

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