甲基驱动的奥弗豪泽动态核极化

Methyl-Driven Overhauser Dynamic Nuclear Polarization.

作者信息

Perras Frédéric A, Flesariu Dragos F, Southern Scott A, Nicolaides Constantinos, Bazak J David, Washton Nancy M, Trypiniotis Theodossis, Constantinides Christos P, Koutentis Panayiotis A

机构信息

US DOE, Ames Laboratory, Ames, Iowa 50011, United States.

Department of Chemistry, University of Cyprus, P.O. Box 20537, 1678 Nicosia, Cyprus.

出版信息

J Phys Chem Lett. 2022 May 12;13(18):4000-4006. doi: 10.1021/acs.jpclett.2c00748. Epub 2022 Apr 28.

DOI:10.1021/acs.jpclett.2c00748

PMID:35482607

Abstract

The Overhauser effect is unique among DNP mechanisms in that it requires the modulation of the electron-nuclear hyperfine interactions. While it dominates DNP in liquids and metals, where unpaired electrons are highly mobile, Overhauser DNP is possible in insulating solids if rapid structural modulations are linked to a modulation in hyperfine coupling. Herein, we report that Overhauser DNP can be triggered by the strategic addition of a methyl group, demonstrated here in a Blatter's radical. The rotation of the methyl group leads to a modulation of the hyperfine coupling to its protons, which in turn facilitates electron-nuclear cross-relaxation. Removal of the methyl protons, through deuteration, quenches the process, as does the reduction of the hyperfine coupling strength. This result suggests the possibility for the design of tailor-made Overhauser DNP polarizing agents for high-field MAS-DNP.

摘要

奥弗豪泽效应在动态核极化（DNP）机制中独具特色，因为它需要对电子 - 核超精细相互作用进行调制。虽然它在液体和金属的DNP中占主导地位，在这些体系中未成对电子具有高度流动性，但如果快速的结构调制与超精细耦合的调制相关联，那么在绝缘固体中也可能实现奥弗豪泽DNP。在此，我们报道通过策略性地添加甲基可以触发奥弗豪泽DNP，本文以布拉特自由基为例进行了展示。甲基的旋转导致与其质子的超精细耦合发生调制，进而促进电子 - 核交叉弛豫。通过氘代去除甲基质子会终止该过程，降低超精细耦合强度也会如此。这一结果表明有可能设计出用于高场魔角旋转 - DNP（MAS - DNP）的定制奥弗豪泽DNP极化剂。

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甲基驱动的奥弗豪泽动态核极化

Methyl-Driven Overhauser Dynamic Nuclear Polarization.

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