导电聚合物的动态核极化

Quentin, Stern, Guillaume, Verhaeghe, Théo, El Daraï, Damien, Montarnal, Nghia, Huu Le, Laurent, Veyre, Chloé, Thieuleux, Charlotte, Bocquelet, Olivier, Cala, Sami, Jannin
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引用次数: 0

摘要

通过溶解动态核极化(dDNP)使核自旋超极化,可以克服液态核磁共振(NMR)灵敏度低的问题。它包括在低于 2 K 的液氦温度下,将稳定自由基的未配对电子自旋的近乎统一极化转移到相关核自旋上,然后再熔化样品以进行超极化液态磁共振实验。达到这样的温度具有挑战性,需要复杂的仪器,这阻碍了 dDNP 的应用。在此,我们提出将聚苯胺 (PANI) 等有机导电聚合物作为一类新型极化基质,并报告了高达 5% 的 1H 极化。我们还表明,浸渍在多孔导电聚合物中的主溶液的 13C 自旋可通过中继 DNP 超极化。这种导电聚合物可以合成为手性体,并显示出电流诱导的自旋选择性,从而使电子自旋超极化接近于 1,而无需低温或高磁场。我们的研究结果表明,在已知具有手性诱导自旋选择性的导电聚合物中进行固态 DNP 是可行的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamic Nuclear Polarization with Conductive Polymers
The low sensitivity of liquid-state nuclear magnetic resonance (NMR) can be overcome by hyperpolarizing nuclear spins by dissolution dynamic nuclear polarization (dDNP). It consists of transferring the near-unity polarization of unpaired electron spins of stable radicals to the nuclear spins of interest at liquid helium temperatures, below 2 K, before melting the sample in view of hyperpolarized liquid-state magnetic resonance experiments. Reaching such a temperature is challenging and requires complex instrumentation, which impedes the deployment of dDNP. Here, we propose organic conductive polymers such as polyaniline (PANI) as a new class of polarizing matrices and report 1H polarizations of up to 5%. We also show that 13C spins of a host solution impregnated in porous conductive polymers can be hyperpolarized by relayed DNP. Such conductive polymers can be synthesized as chiral and display current induced spin selectivity leading to electron spin hyperpolarization close to unity without the need for low temperatures nor high magnetic fields. Our results show the feasibility of solid-state DNP in conductive polymers that are known to exhibit chirality-induced spin selectivity.
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