Welcoming natural isotopic abundance in solid-state NMR: probing π-stacking and supramolecular structure of organic nanoassemblies using DNP - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Chemical Science Année : 2017

Welcoming natural isotopic abundance in solid-state NMR: probing π-stacking and supramolecular structure of organic nanoassemblies using DNP

Katharina Märker
Subhradip Paul
Daniel Lee
Jean-Marie Mouesca
Sabine Hediger
Gael de Paepe

Résumé

The self-assembly of small organic molecules is an intriguing phenomenon, which provides nanoscale structures for applications in numerous fields from medicine to molecular electronics. Detailed knowledge of their structure, in particular on the supramolecular level, is a prerequisite for the rational design of improved self-assembled systems. In this work, we prove the feasibility of a novel concept of NMR-based 3D structure determination of such assemblies in the solid state. The key point of this concept is the deliberate use of samples that contain 13 C at its natural isotopic abundance (NA, 1.1%), while exploiting magic-angle spinning dynamic nuclear polarization (MAS-DNP) to compensate for the reduced sensitivity. Since dipolar truncation effects are suppressed to a large extent in NA samples, unique and highly informative spectra can be recorded which are impossible to obtain on an isotopically labeled system. On the self-assembled cyclic diphenylalanine peptide, we demonstrate the detection of long-range internuclear distances up to $7 ˚ A, allowing us to observe p-stacking through 13 C-13 C correlation spectra, providing a powerful tool for the analysis of one of the most important non-covalent interactions. Furthermore, experimental polarization transfer curves are in remarkable agreement with numerical simulations based on the crystallographic structure, and can be fully rationalized as the superposition of intra-and intermolecular contributions. This new approach to NMR crystallography provides access to rich and precise structural information, opening up a new avenue to de novo crystal structure determination by NMR.

Domaines

Chimie organique
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Dates et versions

hal-02072153 , version 1 (18-03-2019)

Identifiants

Citer

Katharina Märker, Subhradip Paul, Carlos Fernandez-De-Alba, Daniel Lee, Jean-Marie Mouesca, et al.. Welcoming natural isotopic abundance in solid-state NMR: probing π-stacking and supramolecular structure of organic nanoassemblies using DNP. Chemical Science, 2017, 8 (2), pp.974-987. ⟨10.1039/c6sc02709a⟩. ⟨hal-02072153⟩
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