Facile synthesis of starch and tellurium doped SrO nanocomposite for catalytic and antibacterial potential: In silico molecular docking studies

“…Because of this, cH 2 O 2 is extremely dangerous as it ruptures the cell membranes of bacteria, ultimately resulting in their death. 66 The bactericidal ability is related to the generation of ROS, which is inuenced by a number of factors, including the ability to diffuse, crystallinity, surface area, and surface oxygen vacancies. 67 NSs attach themselves to the cell wall like a helical, disorganized spring, and then they penetrate into the cell membrane, where they form interlinks with the molecular structure of deoxyribonucleic acid (DNA).…”

“…Because of this, ˙H 2 O 2 is extremely dangerous as it ruptures the cell membranes of bacteria, ultimately resulting in their death. 66 The bactericidal ability is related to the generation of ROS, which is influenced by a number of factors, including the ability to diffuse, crystallinity, surface area, and surface oxygen vacancies. 67 …”

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

“…Because of this, cH 2 O 2 is extremely dangerous as it ruptures the cell membranes of bacteria, ultimately resulting in their death. 66 The bactericidal ability is related to the generation of ROS, which is inuenced by a number of factors, including the ability to diffuse, crystallinity, surface area, and surface oxygen vacancies. 67 NSs attach themselves to the cell wall like a helical, disorganized spring, and then they penetrate into the cell membrane, where they form interlinks with the molecular structure of deoxyribonucleic acid (DNA).…”

“…Because of this, ˙H 2 O 2 is extremely dangerous as it ruptures the cell membranes of bacteria, ultimately resulting in their death. 66 The bactericidal ability is related to the generation of ROS, which is influenced by a number of factors, including the ability to diffuse, crystallinity, surface area, and surface oxygen vacancies. 67 …”

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

“…Among all synthesized nanocomposites, γ-Fe 2 O 3 /N,Fe-TiO 2 @1.5%GO displayed the higher degradation efficiency ascribed to the unique electrical characteristics of sp 2 hybridized carbon owing to the rapid electron transport from the excited γ-Fe 2 O 3 and TiO 2 to the GO sheet. 34 Along with this photocatalytic experiments under different light conditions UV (λ < 400), visible (λ > 400), and infrared (λ > 800) regions were also explored and the degradation of the mixed disperse dyes was found to be 23%, 78% and 55%, which confirmed that long-wavelength photons were also responsible for the degradation.…”

“…Among all synthesized nanocomposites, γ-Fe 2 O 3 /N,Fe–TiO 2 @1.5%GO displayed the higher degradation efficiency ascribed to the unique electrical characteristics of sp 2 hybridized carbon owing to the rapid electron transport from the excited γ-Fe 2 O 3 and TiO 2 to the GO sheet. 34…”

Biomass-derived graphene modified γ-Fe₂O₃/N,Fe–TiO₂@GO: a prolific photoactive material with extended visible to near IR harvesting

“…The hydroperoxyl radical (*HO 2 ) combines with e – and H + , resulting in the hydrogen peroxide radical (*H 2 O 2 ). The mechanism reaction of antimicrobial activity can be represented in the reaction, 67 where ROS play an influential role in the death of infectious bacteria, as represented in Figure S3 . The direct attack of the prepared material damages the cell wall and cell membrane of bacteria owing to the microorganism death.…”

Toward Efficient Bactericidal and Dye Degradation Performance of Strontium- and Starch-Doped Fe₂O₃ Nanostructures: In Silico Molecular Docking Studies