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A Bifunctional Three-Dimensional Zn(II) Metal–Organic Framework with Strong Luminescence and Adsorption Cr(VI) Properties

Yufeng Chen, Shixiong Li, Yubing Liu, Ping Shi, Shihua Xu, Yuejing Bin

2024ACS Omega13 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide The mixed ligand 3-amino-1,2,4-triazole (Hatz) and terephthalic acid (H 2 pta) reacted with Zn(NO 3 ) 2 ·6H 2 O to synthesize a three-dimensional binuclear Zn(II) metal–organic framework: {[Zn 2 ·(atz) 2 ·(pta)]·3H 2 O} n ( 3D-Zn-MOF ). This 3D-Zn-MOF has two different types of pores (4.5 × 4.5 Å 2, 5.7 × 5.7 Å 2 ). The crystalline 3D-Zn-MOF could be prepared into nanomaterials ( 3D-N-Zn-MOF ) with particles of approximately 100 nm by a cell fragmentation apparatus. Compared with the solid-state luminescence of Hatz and H 2 pta, it was found that 3D-N-Zn-MOF exhibited strong luminescence performance and significant red-shift phenomenon. Due to the decrease in electronegativity and rigidity of ligands, as well as the effect of ligand metal charge transfer (LMCT), the fluorescence lifetime and quantum yield of 3D-ZN-N-MOF were 2.7241 ns and 3.02%, respectively. The maximum experimental adsorption capacity of 3D-N-Zn-MOF could reach 125.52 mg/g, which was superior to the majority of MOF adsorbents under the optimal adsorption conditions (25 °C, pH = 7, and the adsorbent concentration is 0.2000 g/L). The thermodynamic analysis of adsorption showed that the adsorption of Cr(VI) by 3D-N-Zn-MOF was a spontaneous (△ G < 0) and exothermic (△ H < 0) process. It could be found that 3D-N-Zn-MOF was a bifunctional material with potential applications by comprehensive analysis of the fluorescence and adsorption Cr(VI) performance.

Topics & Concepts

BifunctionalLuminescenceAdsorptionZincMetalMetal-organic frameworkMaterials scienceChemistryInorganic chemistryPhysical chemistryMetallurgyOrganic chemistryOptoelectronicsCatalysisMetal-Organic Frameworks: Synthesis and ApplicationsLanthanide and Transition Metal ComplexesMagnetism in coordination complexes