Polychromatic Excitation of Delocalized Long-Lived Proton Spin States in   Aliphatic Chains

Anna Sonnefeld; Geoffrey Bodenhausen; Kirill Sheberstov

arXiv:2207.03446·physics.chem-ph·November 9, 2022

Polychromatic Excitation of Delocalized Long-Lived Proton Spin States in Aliphatic Chains

Anna Sonnefeld, Geoffrey Bodenhausen, Kirill Sheberstov

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TL;DR

This paper demonstrates a method to excite long-lived proton spin states in aliphatic chains using polychromatic RF fields, resulting in significantly extended state lifetimes that are influenced by macromolecular interactions.

Contribution

It introduces poly-SLIC, a novel technique for delocalized long-lived proton spin states in aliphatic chains, enhancing understanding of spin dynamics.

Findings

01

LLS lifetimes are about 5 times longer than T1.

02

LLS are delocalized across the chain via singlet state mixing.

03

Interactions with macromolecules significantly affect LLS lifetimes.

Abstract

Long-lived states (LLS) involving pairs of magnetically inequivalent but chemically equivalent proton spins in aliphatic (CH $_{2}$ ) $_{n}$ chains can be excited by simultaneous application of weak selective radio-frequency (RF) fields at n chemical shifts by polychromatic spin lock induced crossing (poly-SLIC). The LLS are delocalized throughout the aliphatic chain by mixing of intrapair singlet states and by excitation of LLS comprising products of four or six spins. The measured lifetimes T $_{LL S}$ in a model compound are about 5 times longer than T1, and are strongly affected by interactions with macromolecules.

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