S. Qaseem scite author profile

The antibacterial effect of ZnO nanoparticles is tested against Staphylococcus aureus, (a Grampositive pathogenic bacterium) from a particle-size, concentration, and surface-defects point of view. Activation of antibacterial activity was achieved by standard well diffusion agar and minimum inhibitory concentration procedures. Our results show that smaller-sized particles are more effective inhibitors of bacterial activity when used in a certain optimum concentration. To reveal the underlying mechanism of the observed size and concentration-dependent bacterial activity inhibition, we measured the concentrations of Zn 2+ ions released in each suspension by an inductive couple plasma optical emission spectrophotometer. Additionally, photoluminance spectra of our samples show significant surface defects (mainly oxygen vacancies) that generate reactive oxygen species. The underlying mechanism of the observed size-and concentration-dependent bacterial activity inhibition is attributed primarily to the release of Zn 2+ ions and generation of reactive oxygen species that interact and penetrate the cell membrane, causing lethal damage to the cell. Finally, the antibacterial effectiveness and maximum sensitivity of our nanoparticles is confirmed by optical density measurements. Keywords Zinc oxide. Reactive oxygen species ROS. Zn 2+ ion release. Antibacterial activity mechanism. Nanoparticles

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Study of active surface defects in Ti doped ZnO nanoparticles

Naeem

Qaseem

Gul

et al. 2010

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Effect of size reduction on the electronic and ferromagnetic properties of the In2O3 nanoparticles

et al. 2012

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Size induced ferromagnetism in pristine indium oxide nanoparticles

Qaseem

Ali

Naeem

et al. 2015

Applied Surface Science

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Tuning the bandgap in Co-doped Mg(OH)₂ nanoparticles

Raza

Ali

Naeem

et al. 2019

Int. J. Mod. Phys. B

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Cobalt (Co) doped magnesium hydroxide Mg(OH)2 nanoparticles are synthesized by a surfactant-free co-participation method. Scanning electron microscopy (SEM) images show nanometer size Mg(OH)2 particles in spherically shaped particle-like morphology. Synthesis of these Mg(OH)2 nanocrystals involves the formation of monomeric MgOH[Formula: see text] ions as the precursor for the Mg(OH)2 nuclei which finally evolves in spherical particle-like morphology. X-ray diffraction (XRD) confirms the hexagonal crystal structure of the samples. With increasing Co concentration, the absorption spectra of the samples show narrowing of the bandgap from 5.47 eV (for pure Mg(OH2)) to 5.26 eV (for 10% Co-doped Mg(OH2)) effect is attributed to changes in the interaction potentials between Co and the host Mg(OH)2 lattice due to dopant-induced lattice distortion and the presence of a mixed valance Co[Formula: see text]/Co[Formula: see text] state.

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S. Qaseem

Size-dependent inhibition of bacterial growth by chemically engineered spherical ZnO nanoparticles

Study of active surface defects in Ti doped ZnO nanoparticles

Effect of size reduction on the electronic and ferromagnetic properties of the In2O3 nanoparticles

Size induced ferromagnetism in pristine indium oxide nanoparticles

Tuning the bandgap in Co-doped Mg(OH)₂ nanoparticles

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S. Qaseem

Size-dependent inhibition of bacterial growth by chemically engineered spherical ZnO nanoparticles

Study of active surface defects in Ti doped ZnO nanoparticles

Effect of size reduction on the electronic and ferromagnetic properties of the In2O3 nanoparticles

Size induced ferromagnetism in pristine indium oxide nanoparticles

Tuning the bandgap in Co-doped Mg(OH)2 nanoparticles

Contact Info

Product

Resources

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Tuning the bandgap in Co-doped Mg(OH)₂ nanoparticles