揭示葫芦脲-MoS 杂化界面上的协同作用用于电化学测定褪黑素。

Unveiling the Collaborative Effect at the Cucurbit[8]uril-MoS Hybrid Interface for Electrochemical Melatonin Determination.

机构信息

Departamento de Química Analítica y Análisis Instrumental, Facultad de Ciencias, Universidad Autónoma de Madrid, c/Francisco Tomás y Valiente, N° 7, Campus de Excelencia de la Universidad Autónoma de Madrid, 28049, Madrid, Spain.

Institute of Physics of the Czech Academy of Sciences, Cukrovarnicka 10, Prague 6, CZ 162 00, Czech Republic.

出版信息

Chemistry. 2023 Feb 10;29(9):e202203244. doi: 10.1002/chem.202203244. Epub 2023 Jan 13.

DOI:10.1002/chem.202203244

PMID:36534440

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10107440/

Abstract

Host-guest interactions are of paramount importance in supramolecular chemistry and in a wide range of applications. Particularly well known is the ability of cucurbit[n]urils (CB[n]) to selectively host small molecules. We show that the charge transfer and complexation capabilities of CB[n] are retained on the surface of 2D transition metal dichalcogenides (TMDs), allowing the development of efficient electrochemical sensing platforms. We unveil the mechanisms of host-guest recognition between the MoS -CB[8] hybrid interface and melatonin (MLT), an important molecular regulator of vital constants in vertebrates. We find that CB[8] on MoS organizes the receptor portals perpendicularly to the surface, facilitating MLT complexation. This advantageous adsorption geometry is specific to TMDs and favours MLT electro-oxidation, as opposed to other 2D platforms like graphene, where one receptor portal is closed. This study rationalises the cooperative interaction in 2D hybrid systems to improve the efficiency and selectivity of electrochemical sensing platforms.

摘要

主体-客体相互作用在超分子化学和广泛的应用中至关重要。众所周知，瓜环（CB[n]）能够选择性地容纳小分子。我们表明，CB[n]的电荷转移和络合能力在二维过渡金属二硫属化物（TMDs）的表面得以保留，从而开发出高效的电化学传感平台。我们揭示了 MoS 2-CB[8]混合界面与褪黑素（MLT）之间的主体-客体识别机制，MLT 是脊椎动物重要的生命常数分子调节剂。我们发现，CB[8]在 MoS 2 上组织受体门垂直于表面，促进 MLT 络合。这种有利的吸附几何形状是 TMDs 特有的，有利于 MLT 的电化学氧化，而不是像石墨烯等其他二维平台，其中一个受体门是关闭的。这项研究合理化了二维混合系统中的协同相互作用，以提高电化学传感平台的效率和选择性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/6684/10107440/2da09e5b8f9c/CHEM-29-0-g002.jpg

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揭示葫芦脲-MoS 杂化界面上的协同作用用于电化学测定褪黑素。

Unveiling the Collaborative Effect at the Cucurbit[8]uril-MoS Hybrid Interface for Electrochemical Melatonin Determination.

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