Promising performance of polyvinylpyrrolidone-doped bismuth oxyiodide quantum dots for antibacterial and catalytic applications

“…The interaction between bacteria and a strong cationic (Fe 3+ ) charge increases microbicidal potency with increasing concentrations of NSs, which promotes lysis and bacterial cell collapse, ultimately leading to the death of bacteria. 63,68…”

“…The interaction between bacteria and a strong cationic (Fe 3+ ) charge increases microbicidal potency with increasing concentrations of NSs, which promotes lysis and bacterial cell collapse, ultimately leading to the death of bacteria. 63,68 There is an ongoing need for suitable antibiotics, as drug resistance has been deemed a severe menace to mankind. The antibacterial action of metal NSs is widely recognized in this regard.…”

“…When particles are smaller in size, they generate more reactive oxygen species, known as ROS. These species, in turn, cause cytoplasmic components to extrude, which ultimately results in the death of bacteria through microorganism membrane penetration, 63 as the mechanism of antimicrobial activity indicates in Fig. 8 .…”

Molybdenum-doped iron oxide nanostructures synthesized via a chemical co-precipitation route for efficient dye degradation and antimicrobial performance: in silico molecular docking studies

“…The interaction between bacteria and a strong cationic (Fe 3+ ) charge increases microbicidal potency with increasing concentrations of NSs, which promotes lysis and bacterial cell collapse, ultimately leading to the death of bacteria. 63,68…”

“…The interaction between bacteria and a strong cationic (Fe 3+ ) charge increases microbicidal potency with increasing concentrations of NSs, which promotes lysis and bacterial cell collapse, ultimately leading to the death of bacteria. 63,68 There is an ongoing need for suitable antibiotics, as drug resistance has been deemed a severe menace to mankind. The antibacterial action of metal NSs is widely recognized in this regard.…”

“…When particles are smaller in size, they generate more reactive oxygen species, known as ROS. These species, in turn, cause cytoplasmic components to extrude, which ultimately results in the death of bacteria through microorganism membrane penetration, 63 as the mechanism of antimicrobial activity indicates in Fig. 8 .…”

Molybdenum-doped iron oxide nanostructures synthesized via a chemical co-precipitation route for efficient dye degradation and antimicrobial performance: in silico molecular docking studies

“…This is due to the large surface area and substantial hydrophilic groups of the Fe 3 O 4 @SiO 2 core-shell magnetic microspheres, making them a good candidate in innovative composites for their catalytic activity and other applications. 10 Developing novel physical and chemical synthetic methodologies, such as those identified in Fig. 1, to prepare compounds with outstanding structures is a significant area of research.…”

Fabrication and characterization of the Fe₃O₄@SiO₂–rGO nanocomposite: a catalyst for multi-component reactions

“…Various fields benefit from these nanoscale materials, including energy, environment, electronics, optoelectronics, magnetics, cosmetics, biomedicine, pharmaceuticals, and catalytic applications. [3][4][5][6][7] Copper, zinc, titanium, magnesium, gold, and silver are commonly used to produce different metallic nanomaterials. 8 Nanoparticles (NPs) have many unique properties, including a shape and size dependency.…”

Effect of the green synthesis of CuO plate-like nanoparticles on their photodegradation and antibacterial activities