M (M: Cu, Co, Cr or Fe) nanoparticles-loaded metal-organic framework MIL-101(Cr) material by sonication process: Catalytic activity and antibacterial properties

“…The first is the benefit of the ultrasound method on the good dispersion of CuNPs in the matrix as well as the ultrafine size of the nanoparticles generated by this method. 60 Indeed, in our previous work on the use of sonication for the preparation of ruthenium nanoparticles-based nanocomposites, we found that the ultrasonic treatment produced ruthenium nanoparticles of approximately 1 nm. 39 This study also showed that the smaller the size of the nanoparticles, the better the catalytic photoreduction activity.…”

“…41 The largest zones of inhibition among the Gram positive and negative were observed against S. aureus for all materials than E. coli; indeed, several works have demonstrated that S. aureus is more sensitive to CuNPs than E. coli. 11,60 These good antifungal and antibacterial activities are also due to the high content of C and O in materials. Indeed, in their work, Veerapandian et al and Beltr an-Partida et al, synthesized CuNPs stabilized by glucosamine 61 and ascorbic acid, 62 respectively, they suggested using the organic matrix as stabilizers of CuNPs in order to improve their antimicrobial activities.…”

“…Metal ions such as copper ions are known to have excellent antimicrobial activity. 60 However, despite the lower metal content in DG3-Cu-US, its antimicrobial activity is excellent, which is due to the good distribution of nanoparticles in the matrix. In the study by Zia et al, they explained that metallic nanoparticles with a small size have a much greater antibacterial effect than big ones, which means that metallic aggregates exhibit weaker activity.…”

Classical and ultrasonic preparation of new dendrimer–Copper nanocomposites: Application in the catalytic reduction, antioxidant, and antimicrobial activities

“…The first is the benefit of the ultrasound method on the good dispersion of CuNPs in the matrix as well as the ultrafine size of the nanoparticles generated by this method. 60 Indeed, in our previous work on the use of sonication for the preparation of ruthenium nanoparticles-based nanocomposites, we found that the ultrasonic treatment produced ruthenium nanoparticles of approximately 1 nm. 39 This study also showed that the smaller the size of the nanoparticles, the better the catalytic photoreduction activity.…”

“…41 The largest zones of inhibition among the Gram positive and negative were observed against S. aureus for all materials than E. coli; indeed, several works have demonstrated that S. aureus is more sensitive to CuNPs than E. coli. 11,60 These good antifungal and antibacterial activities are also due to the high content of C and O in materials. Indeed, in their work, Veerapandian et al and Beltr an-Partida et al, synthesized CuNPs stabilized by glucosamine 61 and ascorbic acid, 62 respectively, they suggested using the organic matrix as stabilizers of CuNPs in order to improve their antimicrobial activities.…”

“…Metal ions such as copper ions are known to have excellent antimicrobial activity. 60 However, despite the lower metal content in DG3-Cu-US, its antimicrobial activity is excellent, which is due to the good distribution of nanoparticles in the matrix. In the study by Zia et al, they explained that metallic nanoparticles with a small size have a much greater antibacterial effect than big ones, which means that metallic aggregates exhibit weaker activity.…”

Classical and ultrasonic preparation of new dendrimer–Copper nanocomposites: Application in the catalytic reduction, antioxidant, and antimicrobial activities

“…Due to its limited antibacterial action under dark conditions, Mil-101 is frequently utilized as a carrier. 110 , 111 Peng et al synthesized MIL-101(Fe) and tuned the unsaturated iron site ratio to increase the potential to produce ROS, making it extremely effective for sterilization in the dark. Experiments showed that when the proportion of unsaturated iron sites was increased, obvious antibacterial activity was observed, and the iron ion leaching experiment confirmed that its antibacterial activity was not determined by the leached iron ions.…”

How Effective are Metal Nanotherapeutic Platforms Against Bacterial Infections? A Comprehensive Review of Literature

“…MOFs have been employed as support for the incorporation of various metallic and bimetallic nanoparticles. [15][16][17][18][19][20] The tunable pores of MOFs not only prevent the aggregation of metal NPs but also ensure their uniform dispersion. In addition to this, the synergistic effect between metal NPs and MOFs improves the overall stability, selectivity, and activity of the catalysts.…”

Synergistic promotion of Ag nanoparticles supported on magnetic Cu based metal organic framework for A³-coupling and synthesis of benzopyranopyrimidines