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De Gruyter Brill - Innovations in Molecular & Materials Science
De Gruyter Brill - Innovations in Molecular & Materials Science
@degruyterbrillimms.bsky.social
3 months ago
FESEM images (on the left side), EDX spectra were obtained from FESEM images (on the middle), and particle size distribution histograms (on the right side) of (a–c) ZnO-0.50 M NaOH, (d–f) ZnO-0.72 M NaOH, (g–i) ZnO-1.78 M NaOH, and (j–l) ZnO-2.00 M NaOH

FESEM images (on the left side), EDX spectra were obtained from FESEM images (on the middle), and particle size distribution histograms (on the right side) of (a–c) ZnO-0.50 M NaOH, (d–f) ZnO-0.72 M NaOH, (g–i) ZnO-1.78 M NaOH, and (j–l) ZnO-2.00 M NaOH

A simple & cost-effective microwave-assisted method for synthesizing #ZnONPs with diverse morphologies demonstrating potent #AntimicrobialActivity against Gram-positive and Gram-negative bacteria.
Nanotechnology Reviews #OpenAccess: doi.org/10.1515/ntre...

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De Gruyter Brill - Innovations in Molecular & Materials Science
De Gruyter Brill - Innovations in Molecular & Materials Science
@degruyterbrillimms.bsky.social
7 months ago
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Biosynthesized zinc oxide nanoparticles: Multifunctional potential applications in anticancer, antibacterial, and B. subtilis DNA gyrase docking In this work, extracts from okra fruit are used to create zinc oxide nanoparticles (ZnO NPs) in an economical and environmentally friendly manner. During the synthesis process, okra ( Abelmoschus…

This study reports a green method to synthesize #ZnONPs using #Okra extract, showing #anticancer and antibacterial effects, as well as molecular docking potential, highlighting their promise for #biomedical applications.

#OpenAccess in Green Processing and Synthesis:

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