在大环主体分子阳离子柱[5]芳烃功能化的MoS表面上控制金纳米粒子的组装，以增强对p-二硝基苯的传感活性。

Control assembly of Au nanoparticles on macrocyclic host molecule cationic pillar [5]arene functionalized MoS surface for enhanced sensing activity towards p-dinitrobenzene.

作者信息

Tan Xiaoping, Liu Xi, Zeng Wenjie, Zhao Genfu, Zhang Zhong, Huang Ting, Yang Long

机构信息

Chongqing Key Laboratory of Inorganic Special Functional Materials, College of Chemistry and Chemical Engineering, Yangtze Normal University, Fuling, 408100, China.

出版信息

Anal Chim Acta. 2019 Oct 31;1078:60-69. doi: 10.1016/j.aca.2019.06.021. Epub 2019 Jun 11.

DOI:10.1016/j.aca.2019.06.021

PMID:31358229

Abstract

A multicomponent functionalized nano-material (Au@CP5@MoS) is prepared by control assembly of Au nanoparticles on the surface of CP5@MoS for sensing and catalysis reduction of toxic explosives p-dinitrobenzene (p-DNB). Firstly, the Au nanoparticles are obtained by a green redox reaction between HAuCl and hydroxylatopillar[5]arene (HP5) in the presence of a small amount of hydroxide ion without any harsh reduced agent. The CP5@MoS is prepared by a rapidly supramolecule mediated hydrothermal route in the presence of aqueous solution of cationic pillar[5]arene (CP5). Therefore, we construct an electrochemical sensing platform for the high sensitive and selective determination of p-DNB based on the excellent supramolecular recognition of CP5/HP5 and the high catalytic activity of Au nanoparticles. Moreover, the p-DNB can be reduced into 1,4-diaminobenzene by NaBH in the presence of the prepared Au@CP5@MoS, which can reduce the explosion dangerousness of p-DNB to some extent. This strategy might present a prospective value in sensing and reducing toxic explosives.

摘要

通过将金纳米颗粒可控组装在CP5@MoS表面制备了一种多组分功能化纳米材料（Au@CP5@MoS），用于传感和催化还原有毒爆炸物对二硝基苯（p-DNB）。首先，在少量氢氧根离子存在下，通过HAuCl与羟基柱[5]芳烃（HP5）之间的绿色氧化还原反应获得金纳米颗粒，无需任何苛刻的还原剂。CP5@MoS是在阳离子柱[5]芳烃（CP5）水溶液存在下通过快速超分子介导的水热路线制备的。因此，基于CP5/HP5优异的超分子识别能力和金纳米颗粒的高催化活性，我们构建了一个用于高灵敏和选择性测定p-DNB的电化学传感平台。此外，在制备的Au@CP5@MoS存在下，p-DNB可被NaBH还原为1,4-二氨基苯，这在一定程度上可以降低p-DNB的爆炸危险性。该策略在传感和还原有毒爆炸物方面可能具有潜在价值。

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在大环主体分子阳离子柱[5]芳烃功能化的MoS表面上控制金纳米粒子的组装，以增强对p-二硝基苯的传感活性。

Control assembly of Au nanoparticles on macrocyclic host molecule cationic pillar [5]arene functionalized MoS surface for enhanced sensing activity towards p-dinitrobenzene.

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