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Pyridyl/Pyrimidyl-Containing Ligands Modulating Two Cd(II)-MOFs with Distinct Architectures and Al<sup>3+</sup> Sensing Abilities

Jinfang Zhang, Yinlong Yue, Zhuo Lin, Xingyu Tao, Dejing Yin, Chi Zhang

2024Inorganic Chemistry10 citationsDOI

Abstract

It is a challenging task to develop metal–organic frameworks (MOFs) with fascinating architectures and outstanding performance. In this work, two novel Cd(II)-MOFs, [Cd 2 ( L1 )(BDC) 2 ·1.5 i -PrOH] n ( 1 ) and [Cd( L2 ) 0.5 (BDC)(H 2 O)] n ( 2 ), with distinct sensing performances are successfully synthesized by pyridyl/pyrimidyl-containing functional ligands 9,10-bis(di(pyridine-4-yl)methylene)-9,10-dihydroanthracene ( L1 ) and 9,10-bis(di(pyrimidin-5-yl)methylene)-9,10-dihydroanthracene ( L2 ). 1 exhibits a 3D (4,6,10)-connected multicylindrical framework with compartments, constructed by 4-connected L1 and BDC 2– in modes A and B, 6-connected Cd1, and 10-connected [Cd 2 (COO) 2 ] 2+ . 2 is fabricated by 4-connected BDC 2–, 7-connected Cd, and L2 bridges to generate a 3D (4,7)-connected pillar-layered framework with uncoordinated pyrimidyl N active sites. More importantly, their topologies have not been reported thus far. 1 and 2 have excellent water, pH, and thermal stabilities. 1 can efficiently sense TNP and MDZ in H 2 O, but its Al 3+ sensing ability is relatively average. In sharp contrast, 2 has ultrahigh Al 3+ sensitivity. Its limit of detection (LOD) toward Al 3+ (2.93 × 10 –7 M) is nearly 2 orders of magnitude and 25 times lower than that of 1 (1.18 × 10 –5 M) and the WHO’s maximum Al 3+ limit (7.41 × 10 –6 M) in drinking water, respectively. Their sensing mechanisms and different sensing performances are explored in depth.

Topics & Concepts

ChemistryMethylenePyridinePillarMethylene blueDetection limitLimit (mathematics)Metal-organic frameworkTopology (electrical circuits)MoleculeStereochemistryCrystallographyCatalysisMedicinal chemistryAdsorptionPhysical chemistryOrganic chemistryMathematical analysisStructural engineeringCombinatoricsMathematicsPhotocatalysisEngineeringChromatographyMetal-Organic Frameworks: Synthesis and ApplicationsMolecular Sensors and Ion DetectionAdvanced Nanomaterials in Catalysis