Investigation of upconversion phenomenon in Y1-xLn3+x(BTC)(DMF)2(H2O) and Y0.8-xYb0.2Ln3+x(BTC)(DMF)2(H2O) metal organic frameworks

IF 0.5 4区化学 Q4 CHEMISTRY, MULTIDISCIPLINARY

Chemija Pub Date : 2021-05-29 DOI:10.6001/CHEMIJA.V32I2.4434

A. Laurikėnas, A. Kareiva

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Abstract

In this study, Y1-xLn3+x(BTC)(DMF)2(H2O) and Y0.8-xYb0.2Ln3+x(BTC)(DMF)2(H2O) metal organic frameworks (MOFs), which structure included lanthanide ions, Ln3+ (Er3+, Ho3+, Tm3+, Yb3+, Nd3+), suitable for monitoring the upconversion phenomenon, have been synthesised. For this purpose the precursor of the organic moiety, benzene-1,3,5-tricarboxylic acid (BTC), as one of the simplest and very frequently cited carboxylic acid analogues in MOF syntheses, has been selected. By characterising upconversion properties of new MOFs it was determined that only Er3+ can be used as an activator for one centre luminescence upconversion by a ground state absorption/ excited-state absorption (GSA/ESA) mechanism, while with Yb3+, Ho3+, Tm3+ and Nd3+ ions the upconversion was not observed. It was also established that BTC cannot initiate triplet–triplet annihilation upconversion (TTA-UC) as this mechanism sensitizer. Yb3+–Er3+ and Yb3+–Ho3+ ion pairs as a sensitizeractivator were suitable for two-centre luminescence upconversion by a GSA/ excited-state upconversion (GSA/ESU) mechanism. A pair of Yb3+–Tm3+, contrary as shown in the literature review, does not exhibit upconversion properties in the synthesised MOFs.

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Y1-xLn3+x(BTC)(DMF)2(H2O)和Y0.8-xYb0.2Ln3+x(BTC)(DMF)2(H2O)金属有机骨架中上转换现象的研究

在本研究中，合成了适用于监测上转换现象的Y1-xLn3+x（BTC）（DMF）2（H2O）和Y0.8-xYb0.2Ln3+xBTC（DMF，H2O）金属有机框架（MOFs），其结构包括镧系离子、Ln3+（Er3+、Ho3+、Tm3+、Yb3+、Nd3+）。为此，选择了有机部分的前体，苯-1，3，5-三羧酸（BTC），作为MOF合成中最简单且经常被引用的羧酸类似物之一。通过表征新MOFs的上转换特性，确定只有Er3+可以通过基态吸收/激发态吸收（GSA/ESA）机制用作单中心发光上转换的活化剂，而对于Yb3+、Ho3+、Tm3+和Nd3+离子，没有观察到上转换。还证实BTC不能作为该机制敏化剂启动三重态-三重态湮灭上转换（TTA-UC）。Yb3+–Er3+和Yb3+-Ho3+离子对作为敏化剂适用于通过GSA/激发态上转换（GSA/ESU）机制进行的双中心发光上转换。与文献综述所示相反，一对Yb3+–Tm3+在合成的MOFs中没有表现出上转换特性。

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来源期刊

Chemija 化学-化学综合

CiteScore

1.30

自引率

16.70%

发文量

审稿时长

>12 weeks

期刊介绍： Chemija publishes original research articles and reviews from all branches of modern chemistry, including physical, inorganic, analytical, organic, polymer chemistry, electrochemistry, and multidisciplinary approaches.