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Multifunctional In-MOF and Its S-Scheme Heterojunction toward Pollutant Decontamination via Fluorescence Detection, Physical Adsorption, and Photocatalytic REDOX

Huan-Yu Yin, Qing Li, Tianhui Liu, Jie Liu, Ying-Tong Qin, Yang Wang, Wei-Li Zhai, Xin-Bin Cai, Zhigang Wang, Wei Zhu

2024Inorganic Chemistry48 citationsDOIOpen Access PDF

Abstract

A novel doubly interpenetrated indium-organic framework of 1 has been assembled by In 3+ ions and highly conjugated biquinoline carboxylate-based bitopic connectors (H 2 L). The isolated 1 exhibits an anionic framework possessing channel-type apertures repleted with exposed quinoline N atoms and carboxyl O atoms. Owing to the unique architecture, 1 displays a durable photoluminescence effect and fluorescence quenching sensing toward CrO 4 2–, Cr 2 O 7 2–, and Cu 2+ ions with reliable selectivity and anti-interference properties, fairly high detection sensitivity, and rather low detection limits. Ligand-to-ligand charge transition (LLCT) was identified as the essential cause of luminescence by modeling the ground state and excited states of 1 using DFT and TD-DFT. In addition, the negatively charged framework has the ability to rapidly capture single cationic MB, BR14, or BY24 and their mixture, including the talent to trap MB from the (MB + MO) system with high selectivity. Moreover, intrinsic light absorption capacity and band structure feature endow 1 with effective photocatalytic decomposition ability toward reactive dyes RR2 and RB13 under ultraviolet light. Notably, after further polishing the band structure state of 1 by constructing the S-scheme heterojunction of In 2 S 3 / 1, highly efficient photocatalytic detoxification of Cr(VI) and degradation of reactive dyes have been fully achieved under visible light. This finding may open a new avenue for designing novel multifunctional MOF-based platforms to address some intractable environmental issues, i.e., detection of heavy metal ions, physical capture of pony-sized dyes, and photochemical decontamination of ultrastubborn reactive dyes and highly toxic Cr(VI) ions from water.

Topics & Concepts

ChemistryPhotochemistryPhotocatalysisAdsorptionLuminescenceSelectivityVisible spectrumPhotoluminescenceLigand (biochemistry)Metal-organic frameworkMetal ions in aqueous solutionIonCatalysisPhysical chemistryOptoelectronicsOrganic chemistryBiochemistryPhysicsReceptorMetal-Organic Frameworks: Synthesis and ApplicationsAdvanced Photocatalysis TechniquesAdvanced Nanomaterials in Catalysis