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A Bioinspired Molybdenum Catalyst for Aqueous Perchlorate Reduction

Changxu Ren, Peng Yang, Jiaonan Sun, Eric Bi, Jinyu Gao, Jacob Palmer, Mengqiang Zhu, Yiying Wu, Jinyong Liu

2021Journal of the American Chemical Society48 citationsDOIOpen Access PDF

Abstract

Perchlorate (ClO4–) is a pervasive, harmful, and inert anion on both Earth and Mars. Current technologies for ClO4– reduction entail either harsh conditions or multicomponent enzymatic processes. Herein, we report a heterogeneous (L)Mo–Pd/C catalyst directly prepared from Na2MoO4, a bidentate nitrogen ligand (L), and Pd/C to reduce aqueous ClO4– into Cl– with 1 atm of H2 at room temperature. A suite of instrument characterizations and probing reactions suggest that the MoVI precursor and L at the optimal 1:1 ratio are transformed in situ into oligomeric MoIV active sites at the carbon–water interface. For each Mo site, the initial turnover frequency (TOF0) for oxygen atom transfer from ClOx– substrates reached 165 h–1. The turnover number (TON) reached 3840 after a single batch reduction of 100 mM ClO4–. This study provides a water-compatible, efficient, and robust catalyst to degrade and utilize ClO4– for water purification and space exploration.

Topics & Concepts

ChemistryMolybdenumCatalysisAqueous solutionPerchlorateReduction (mathematics)Inorganic chemistrySelective catalytic reductionOrganic chemistryIonMathematicsGeometryChemical Analysis and Environmental ImpactChemical Reactions and IsotopesWater Treatment and Disinfection
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