铽修饰的二维锆基金属有机骨架用于亚硝酸盐†的光致发光检测

IF 3.2 3区 工程技术 Q2 CHEMISTRY, PHYSICAL
You-Liang Chen, Cheng-Hui Shen, Chi-Wei Huang and Chung-Wei Kung
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引用次数: 2

摘要

在本研究中,将空间隔离的铽离子后合成安装在二维(2D)水稳定的锆基金属有机骨架(MOF) ZrBTB (BTB = 1,3,5-三(4-羧基苯基)苯)上,并通过调节后合成工艺的合成温度来调节所安装的铽离子的负载。表征了所得材料的结晶度、孔隙度、形态、化学状态和铽负载。在不同温度下合成的tb修饰mof在水环境中进行了光致发光测试,通过调节安装铽的温度,BTB连接体到安装的铽位点的能量传递是高度可调的。由于所安装的铽位点的光致发光可以被溶液中存在的亚硝酸盐离子猝灭,作为证明,利用Stern-Volmer方程将含铽mof应用于亚硝酸盐定量;斯特恩-沃尔默常数高达472?000米?1,低检测限为0.08 μM。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Terbium-modified two-dimensional zirconium-based metal–organic frameworks for photoluminescence detection of nitrite†

Terbium-modified two-dimensional zirconium-based metal–organic frameworks for photoluminescence detection of nitrite†

In this study, spatially isolated terbium ions are post-synthetically installed on a two-dimensional (2D) water-stable zirconium-based metal–organic framework (MOF), ZrBTB (BTB = 1,3,5-tri(4-carboxyphenyl)benzene), and the loading of installed terbium ions is adjusted by tuning the synthetic temperature of the post-synthetic process. The crystallinity, porosity, morphology, chemical state, and terbium loading of the obtained materials are characterized. Tb-modified MOFs synthesized at various temperatures were subjected to photoluminescence tests in aqueous environments, and the energy transfer from the BTB linkers to the installed terbium sites is highly tunable by adjusting the temperature for installing terbium. Since the photoluminescence of the installed terbium sites can be quenched by the nitrite ions present in the solution, as a demonstration, the terbium-incorporating MOFs are applied for nitrite quantification by utilizing the Stern–Volmer equation; a high Stern–Volmer constant of 472?000 M?1 and a low limit of detection of 0.08 μM can be achieved.

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来源期刊
Molecular Systems Design & Engineering
Molecular Systems Design & Engineering Engineering-Biomedical Engineering
CiteScore
6.40
自引率
2.80%
发文量
144
期刊介绍: Molecular Systems Design & Engineering provides a hub for cutting-edge research into how understanding of molecular properties, behaviour and interactions can be used to design and assemble better materials, systems, and processes to achieve specific functions. These may have applications of technological significance and help address global challenges.
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