基于单分子层分散聚合策略的核壳结构荧光纳米传感器的构建及其对多巴胺的检测

Dual-Emission SG7@MOF Sensor via SC-SC Transformation: Enhancing the Formation of Excimer Emission and the Range and Sensitivity of Detection.

机构信息

State Key Laboratory of Structural Chemistry, Fujian Institute of Research on the Structure of Matter , Chinese Academy of Sciences , Fuzhou , Fujian 35002 , P. R. China.

College of Chemistry and Chemical Engineering, Henan Province Function-oriented Porous Materials Key Laboratory , Luoyang Normal University , Luoyang 471934 , P. R. China.

出版信息

ACS Appl Mater Interfaces. 2018 May 30;10(21):18012-18020. doi: 10.1021/acsami.8b05614. Epub 2018 May 15.

DOI:10.1021/acsami.8b05614

PMID:29733192

Abstract

In this study, a water stable metal-organic framework FIR-53 is applied as a single-crystal container for anion exchange. The exceptional chemical stability and low crystallographic symmetry of FIR-53 makes it possible to determine anionic guests. Through ion exchange and single-crystal to single-crystal (SC-SC) transformation, 8-hydroxypyrene-1,3,6-trisulfonate (SG7, solvent green 7, ion form as SG7) is introduced into the pores of FIR-53 to obtain SG7@FIR-53. Because of the spatial confinement and partition effect, SG7@FIR-53 shows the bright exciter emission of SG7 ions. Interestingly, the composite SG7@FIR-53 exhibits a sensitive fluorescence quenching response against CrO and MnO in aqueous solution. Especially, the detection limit toward MnO is as low as 0.12 ppb, which is the smallest value to date. Moreover, the prepared SG7@FIR-53 film also displays a broad response to nitro explosives in vapor/aqueous phase. Compared with the results of FIR-53, the range and sensitivity were greatly improved.

摘要

在这项研究中，一种水稳定的金属有机骨架 FIR-53 被用作阴离子交换的单晶容器。FIR-53 的特殊化学稳定性和低结晶对称性使其能够确定阴离子客体。通过离子交换和单晶到单晶（SC-SC）的转变，将 8-羟基芘-1,3,6-三磺酸（SG7，溶剂绿 7，离子形式为 SG7）引入 FIR-53 的孔中，得到 SG7@FIR-53。由于空间限制和分区效应，SG7@FIR-53 显示出 SG7 离子的明亮激发发射。有趣的是，该复合材料 SG7@FIR-53 对水溶液中的 CrO 和 MnO 表现出灵敏的荧光猝灭响应。特别是，对 MnO 的检测限低至 0.12 ppb，这是迄今为止的最低值。此外，制备的 SG7@FIR-53 薄膜在蒸气/水相态对硝基炸药也表现出广泛的响应。与 FIR-53 的结果相比，范围和灵敏度都有了很大的提高。

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基于单分子层分散聚合策略的核壳结构荧光纳米传感器的构建及其对多巴胺的检测

Dual-Emission SG7@MOF Sensor via SC-SC Transformation: Enhancing the Formation of Excimer Emission and the Range and Sensitivity of Detection.

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