Na Peng scite author profile

Achieving versatile dispersion of nanoparticles in a broad range of solvents (e.g., water, oil, and biofluids) without repeatedly recourse to chemical modifications are desirable in optoelectronic devices, self-assembly, sensing, and biomedical fields. However, such a target is limited by the strategies used to decorate nanoparticle’s surface properties, leading to a narrow range of solvents for existing nanoparticles. Here we report a concept to break the nanoparticle’s dispersible limit via electrochemically anchoring surface ligands capable of sensing the surrounding liquid medium and rotating to adapt to it, immediately forming stable dispersions in a wide range of solvents (polar and nonpolar, biofluids, etc.). Moreover, the smart nanoparticles can be continuously electrodeposited in the electrolyte, overcoming the electrode surface-confined low throughput limitation of conventional electrodeposition methods. The anomalous dispersive property of the smart Ag nanoparticles enables them to resist bacteria secreted species-induced aggregation and the structural similarity of the surface ligands to that of the bacterial membrane assists them to enter the bacteria, leading to high antibacterial activity. The simple but massive fabrication process and the enhanced dispersion properties offer great application opportunities to the smart nanoparticles in diverse fields.

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The valorization of biogas slurry with a pilot dual stage reverse osmosis membrane process

Zhou

Chen

et al. 2019

Chemical Engineering Research and Design

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Na Peng

Performance enhancement of polyvinyl chloride ultrafiltration membrane modified with graphene oxide

The developing trends and driving factors of environmental information disclosure in China

Breaking the nanoparticle’s dispersible limit via rotatable surface ligands

The valorization of biogas slurry with a pilot dual stage reverse osmosis membrane process

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