Microenvironment-Engineered Biocatalytic Metal–Organic Framework Nanomotors for Selective and Transformative Water Decontamination
Shu Xu, Jueyi Xue, Linyun Bao, Joel Yong, Ying Cao, Jun Ma, Kang Liang

TL;DR
Researchers created nanomotors using metal-organic frameworks and enzymes to efficiently and selectively remove pollutants from water.
Contribution
A novel biocatalytic nanomotor system was developed using MOFs and enzymes, with a tunable microenvironment for enhanced decontamination.
Findings
Nanomotors achieved ~98% bisphenol A removal in 2 minutes through enzymatic transformation.
Surface engineering with tannic acid improved contaminant preconcentration and catalytic selectivity.
Etching-induced voids enhanced mass transfer to enzyme active sites, improving efficiency.
Abstract
Biocatalytic metal–organic framework nanomotors were engineered with tunable microenvironment through a synergistic etching and surface engineering strategy.Enhanced catalytic efficiency and selectivity for dye decontamination were achieved through charge-based enrichment and nanoconfinement effects.Exceptional performance in water remediation of emerging contaminants, e.g., ~ 98% bisphenol A removal, in 2 min was achieved via enzymatic transformation into recoverable products. Biocatalytic metal–organic framework nanomotors were engineered with tunable microenvironment through a synergistic etching and surface engineering strategy. Enhanced catalytic efficiency and selectivity for dye decontamination were achieved through charge-based enrichment and nanoconfinement effects. Exceptional performance in water remediation of emerging contaminants, e.g., ~ 98% bisphenol A removal, in 2…
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Taxonomy
TopicsMicro and Nano Robotics · Nanoplatforms for cancer theranostics · Hydrogels: synthesis, properties, applications
