Scalable applications of precious-metal catalysts for water treatment face obstacles in H-transfer efficiency and catalyst stability during continuous operation. Here, we introduce a H-based membrane catalyst-film reactor (H-MCfR), which enables in situ reduction and immobilization of a film of heterogeneous Pd catalysts that are stably anchored on the exterior of a nonporous H-transfer membrane under ambient conditions. In situ immobilization had >95% yield of Pd in controllable forms, from isolated single atoms to moderately agglomerated nanoparticles (averaging 3-4 nm). A series of batch tests documented rapid Pd-catalyzed reduction of a wide spectrum of oxyanions (nonmetal and metal) and organics (e.g., industrial raw materials, solvents, refrigerants, and explosives) at room temperature, owing to accurately controlled H supply on demand. Reduction kinetics and selectivity were readily controlled through the Pd loading on the membranes, H pressure, and pH. A 45-day continuous treatment of trichloroethene (TCE)-contaminated water documented removal fluxes up to 120 mg-TCE/m/d with over 90% selectivity to ethane and minimal (<1.5%) catalyst leaching or deactivation. The results support that the H-MCfR is a potentially sustainable and reliable catalytic platform for reducing oxidized water contaminants: simple synthesis of an active and versatile catalyst that has long-term stability during continuous operation.
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