Preparation of silver nanoparticles supported mesoporous silica microspheres with perpendicularly aligned mesopore channels and their antibacterial activities

Huang, Renshu; Hou, Baofei; Li, Haitao; Fu, Xucheng; Xie, Chenggen

doi:10.1039/c5ra06358b

Cited by 26 publications

(14 citation statements)

References 46 publications

(81 reference statements)

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“…The MIC of S. aureus was slightly higher than E. coli, which could be ascribed to its thicker cell wall, thus higher dose of the antibacterial agent was necessary to inhibit the growth of bacterial. So far as we have been concerned, the obtained effective inhibition concentration was much lower than a majority of mesoporous silica-supported Ag nanoparticles (typical 100-1000 mg/L) [58][59][60][61] and slightly lower than the result reported by Jiang and his coworkers [47]. According to the ICP-AES measurement, the weight content of Ag NPs in AgNPs@ WMSs-SO 3 − was 8.32%, thus the actual concentration of Ag NPs worked in the MIC can be calculated and the results were recorded in Table 2.…”

Section: Resultsmentioning

confidence: 98%

In-situ reduction of monodisperse nanosilver on hierarchical wrinkled mesoporous silica with radial pore channels and its antibacterial performance

Wan

Zhuang

She

et al. 2016

Materials Science and Engineering: C

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Section: Resultsmentioning

confidence: 98%

In-situ reduction of monodisperse nanosilver on hierarchical wrinkled mesoporous silica with radial pore channels and its antibacterial performance

Wan

Zhuang

She

et al. 2016

Materials Science and Engineering: C

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“…Fu and co‐workers prepared MS NPs functionalized with AgNPs and tested their antibacterial behavior against E. coli and S. aureus . The final material was prepared from MS particles of ≈130 nm that were coated with a mesoporous shell containing aminopropyl moieties.…”

Section: Ms In Antibacterial Applicationsmentioning

confidence: 99%

Mesoporous Silica‐Based Materials with Bactericidal Properties

Bernardos

Piacenza

Sancenón

et al. 2019

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136

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Bacterial infections are the main cause of chronic infections and even mortality. In fact, due to extensive use of antibiotics and, then, emergence of antibiotic resistance, treatment of such infections by conventional antibiotics has become a major concern worldwide. One of the promising strategies to treat infection diseases is the use of nanomaterials. Among them, mesoporous silica materials (MSMs) have attracted burgeoning attention due to high surface area, tunable pore/particle size, and easy surface functionalization. This review discusses how one can exploit capacities of MSMs to design and fabricate multifunctional/controllable drug delivery systems (DDSs) to combat bacterial infections. At first, the emergency of bacterial and biofilm resistance toward conventional antimicrobials is described and then how nanoparticles exert their toxic effects upon pathogenic cells is discussed. Next, the main aspects of MSMs (e.g., physicochemical properties, multifunctionality, and biosafety) which one should consider in the design of MSM‐based DDSs against bacterial infections are introduced. Finally, a comprehensive analysis of all the papers published dealing with the use of MSMs for delivery of antibacterial chemicals (antimicrobial agents functionalized/adsorbed on mesoporous silica (MS), MS‐loaded with antimicrobial agents, gated MS‐loaded with antimicrobial agents, MS with metal‐based nanoparticles, and MS‐loaded with metal ions) is provided.

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“…Aerwards, various amounts of AgNO 3 were added to the solution. 41 Solutions with lower Ag concentrations require several hours to be ready for coating, while solutions with higher Ag concentrations need a shorter time. 42 Fig.…”

Section: Synthesis Of Coated Silver Nanoparticles (Agnps)mentioning

confidence: 99%