RESUMEN
The encapsulation of functional colloidal nanoparticles (100â nm) into single-crystalline ZSM-5 zeolites, aiming to create uniform core-shell structures, is a highly sought-after yet formidable objective due to significant lattice mismatch and distinct crystallization properties. In this study, we demonstrate the fabrication of a core-shell structured single-crystal zeolite encompassing an Fe3O4 colloidal core via a novel confinement stepwise crystallization methodology. By engineering a confined nanocavity, anchoring nucleation sites, and executing stepwise crystallization, we have successfully encapsulated colloidal nanoparticles (CN) within single-crystal zeolites. These grafted sites, alongside the controlled crystallization process, compel the zeolite seed to nucleate and expand along the Fe3O4 colloidal nanoparticle surface, within a meticulously defined volume (1.5×107≤V≤1.3×108â nm3). Our strategy exhibits versatility and adaptability to an array of zeolites, including but not restricted to ZSM-5, NaA, ZSM-11, and TS-1 with polycrystalline zeolite shell. We highlight the uniformly structured magnetic-nucleus single-crystalline zeolite, which displays pronounced superparamagnetism (14â emu/g) and robust acidity (~0.83â mmol/g). This innovative material has been effectively utilized in a magnetically stabilized bed (MSB) reactor for the dehydration of ethanol, delivering an exceptional conversion rate (98 %), supreme ethylene selectivity (98 %), and superior catalytic endurance (in excess of 100â hours).
RESUMEN
The current serious mismatch between the increasing severity of bacterial infections and antibiotic production capacity urgently requires the emergence of novel antimicrobial materials. In this paper, dopamine methacrylamide (DMA) and N-isopropylacrylamide (NIPAM) were polymerized as the monomers into a block copolymer poly(dopamine methacrylamide-block-N-isopropylacrylamide) (P(DA-NIP)) and then encapsulated with polydopamine-coated magnetic nanoparticle clusters (MNC) to produce an antibacterial nanocomposite (MNC@P(DA-NIP)). This nanocomposite has triple responses respectively to light, heat and magnetism, which endow MNC@P(DA-NIP) with the abilities to kill bacteria effectively and capture/release bacteria conveniently. Under near-infrared (NIR) light irradiation, MNC@P(DA-NIP) could significantly elevate the temperature through photothermal conversion. The increased temperature favored both the capture of bacteria on MNC@P(DA-NIP), and the damage of bacterial cells, causing bacterial death almost completely. While low temperatures could promote the release of dead bacteria from the nanocomposites, might through the recovery of the hydrophilic state of the outlayer PNIPAM. Moreover, thanks to the magnetic responsibility, MNC@P(DA-NIP) could be easily separated from the bacterial cells and perform better biofilm penetration. The results showed that the antibacterial effect of MNC@P(DA-NIP) was 3.5 times higher than that of MNC, and the recycling capacity of MNC@P(DA-NIP) was better than MNC@PDA. What's more, MNC@P(DA-NIP) possessed the excellent anti-biofilm properties under magnetic field (MF) and NIR. The most important features of the triple-responsive nanocomposites are excellent antibacterial effect, good recyclability and easy preparation, which provide the nanocomposites with great potential in eliminating harmful bacterial cells.
Asunto(s)
Antiinfecciosos , Nanocompuestos , Antibacterianos/farmacología , Antiinfecciosos/farmacología , Biopelículas , Hidrogeles/farmacologíaRESUMEN
OBJECTIVE: To investigate the effects of intermittent irrigation in paddy fields on mosquito control and the impact on growth and yield of rice. METHODS: The paddy fields were divided into an experimental group and a control group. In the same context of other measures, the experimental group was performed with intermittent irrigation and the control group with conventional irrigation. The densities of larvae of Anopheles sinensis and Culex tritaeniorhynchus were surveyed by the suction trapping method. The plant traits, leaf age process, tiller dynamics, yield structure and actual rice production were observed. RESULTS: Compared with the control group, the average densities of larvae of Anopheles sinensis and Culex tritaeniorhynchus were reduced of 10.32/m2 and 13.93/m2 respectively in the experimental group, the control rates were 79.84% and 72.14% respectively, the average yield increased of 22.5 kg/667 m2, water conservation was 187.4 m3/667 m2, and the increased revenue was 75.78 yuan/667 m2. CONCLUSIONS: The intermittent irrigation in paddy fields not only can control mosquito larva breeding effectively, but also save water and electricity, and increase the harvest.