3D hierarchical tubular micromotors with highly selective recognition and capture for antibiotics
Publication in refereed journal

香港中文大學研究人員

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摘要Self-propelled micro/nanomotors attract a great deal of attention from the scientific community due to their great potential in environmental and biomedical applications. Here, molecularly imprinted magnetic micromotors with highly selective recognition and capture for antibiotics are presented. Such micromotors, powered by local fuel and with precise trajectory control over the self-propulsion direction, exhibit a unique 3D hierarchical tubular structure constructed by a combination of the biomass route and atom transfer radical polymerization (ATRP). Each component of such a hierarchical structure performs its own function: Br-MgAl layered double hydroxide (LDH) nanosheets as the initiator for ATRP to selectively recognize target molecules, Mn3O4 nanoparticles as the catalyst for H2O2 decomposition to generate oxygen bubbles for self-propulsion, and Fe3O4 nanoparticles as the magnetic component for magnetic orientation and recycling. Due to the synergetic effects of self-propelled movement and highly exposed selective recognition sites from molecularly imprinted LDH nanosheets, such micromotors can rapidly recognize, capture and remove target antibiotics from water. The maximum doxycycline (DC) adsorption capacity of micromotors is up to 224.2 mg g(-1) in the presence of 2% H2O2, which is 1.6 times greater than their non-micromotor counterparts. More importantly, these micromotors can be quickly recycled by magnetic separation. This study provides a new insight for designing novel molecularly imprinted micromotors for water treatment.
著者Bing XM, Zhang XL, Li J, Ng DHL, Yang WN, Yang J
期刊名稱Journal of Materials Chemistry A
出版年份2020
月份2
卷號8
期次5
出版社Royal Society of Chemistry
頁次2809 - 2819
國際標準期刊號2050-7488
電子國際標準期刊號2050-7496
語言英式英語
Web of Science 學科類別Chemistry, Physical;Energy & Fuels;Materials Science, Multidisciplinary;Chemistry;Energy & Fuels;Materials Science

上次更新時間 2021-21-01 於 00:28