通过纳米粒子辅助的“NMR 化学传感”将超分子受体转化为化学传感器。

Turning Supramolecular Receptors into Chemosensors by Nanoparticle-Assisted "NMR Chemosensing".

机构信息

Dipartimento di Scienze Chimiche, Università di Padova , via Marzolo 1, Padova, Italy.

出版信息

J Am Chem Soc. 2015 Sep 9;137(35):11399-406. doi: 10.1021/jacs.5b06300. Epub 2015 Aug 27.

Abstract

By exploiting a magnetization transfer between monolayer-protected nanoparticles and interacting analytes, the NMR chemosensing protocol provides a general approach to convert supramolecular receptors into chemosensors via their conjugation with nanoparticles. In this context, the nanoparticles provide the supramolecular receptor not only with the "bulkiness" necessary for the NMR chemosensing approach but also with a different selectivity as compared to the parent receptor. We here demonstrate that gold nanoparticles of 1.8 nm core coated with a monolayer of 18-crown-6 ether derivatives can detect and identify protonated primary amines in methanol and in water, and even discriminate between two biogenic diamines that are selectively detected over monoamines and α-amino acids.

摘要

通过利用单层保护纳米粒子与相互作用的分析物之间的磁化转移，NMR 化学传感方案提供了一种通过将纳米粒子与超分子受体缀合将超分子受体转化为化学传感器的通用方法。在这种情况下，纳米粒子不仅为超分子受体提供了 NMR 化学传感方法所需的“体积”，而且与母体受体相比还提供了不同的选择性。我们在这里证明，用 18-冠-6 醚衍生物的单层涂覆的 1.8nm 核的金纳米粒子可以在甲醇和水中检测和识别质子化的伯胺，甚至可以区分两种生物衍生的二胺，它们可以选择性地检测单胺和α-氨基酸。

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通过纳米粒子辅助的“NMR 化学传感”将超分子受体转化为化学传感器。

Turning Supramolecular Receptors into Chemosensors by Nanoparticle-Assisted "NMR Chemosensing".

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