To address the challenges in bacterial
infection for killing germs
without using antibiotics, the development of an efficient and safe
antibacterial nanomaterial to control severe bacterial infection has
become a critical issue. Herein, ionic liquid (IL)-promoted simultaneous
exfoliation and conjugation of boron nitride nanosheets (BNNSs) with
ammonium dimolybdate (ADM) are developed. Such an approach provides
large ultrathin nanosheets with three to four layers and micron lateral
dimensions and facilitates intercalation with a molybdenum (Mo) content
of 6.25%. BNNS-IL-ADM provides nanoconfinement inducing capability
for sustained release of Mo ions to decelerate the cumulative release
rate by 30.45%. BNNS-IL-ADM imparts a superior antibacterial effect
especially at a low concentration level of bioactive components, which
improves the antibacterial efficiency by 92.00% against Gram-negative Escherichia coli and Gram-positive Staphylococcus aureus in comparison with ADM. The
enhanced antibacterial performance is strongly dependent on the synergistic
effect between the BN nanocarrier and bioactive ADM, in which the
bacterial cell adhesion induced by the inherent hydrophobic property
of the BNNS and the nanochannels within BNNS-IL-ADM protecting the
bioactive ingredient and achieving a sustained release play significant
roles. BNNS-IL-ADM can serve as a safe and efficient antibacterial
agent with very low cytotoxicity. Such features offer a feasible strategy
for simultaneous exfoliation and functionalization of boron nitride
nanosheets as a promising platform for the delivery of bioactive ingredients
against bacterial infections.
Plant micronutrients can promote the growth and resist the invasion of severe bacterial diseases pathogens but their low efficiency and toxicity accumulation are desired to be addressed. A facile strategy...
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