2023
DOI: 10.3390/membranes13040432
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Versatile Silver-Nanoparticle-Impregnated Membranes for Water Treatment: A Review

Abstract: Increased affordability, smaller footprint, and high permeability quality that meets stringent water quality standards have accelerated the uptake of membranes in water treatment. Moreover, low pressure, gravity-based microfiltration (MF) and ultrafiltration (UF) membranes eliminate the use of electricity and pumps. However, MF and UF processes remove contaminants by size exclusion, based on membrane pore size. This limits their application in the removal of smaller matter or even harmful microorganisms. There… Show more

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Cited by 12 publications
(7 citation statements)
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“…These results align with previous research demonstrating the antimicrobial and antiviral efficacy of nanomaterial-enhanced membranes. 32,33 Our study further highlights the synergistic effects of combining multiple nanomaterials, contributing to the development of more efficient water purication technologies.…”
Section: Discussionmentioning
confidence: 66%
“…These results align with previous research demonstrating the antimicrobial and antiviral efficacy of nanomaterial-enhanced membranes. 32,33 Our study further highlights the synergistic effects of combining multiple nanomaterials, contributing to the development of more efficient water purication technologies.…”
Section: Discussionmentioning
confidence: 66%
“…This is because for each membrane there is a trade-off of selectivity, permeability, flux, stability, or high cost of manufacturing. ,, Furthermore, as previously mentioned, fouling remains a significant concern that limits the practicality of diverse filtration membranes, particularly those composed of polymers and ceramics. Polymeric membranes are favored because of their high flexibility and chemical stability and they can be used in processes such as microfiltration, ultrafiltration, nanofiltration, and reverse osmosis that use pressure. , They can be made from various polymeric materials such as polyether sulfone, polyamic acid, polyvinylidene, and poly(vinyl alcohol) among others. , Nanotechnology, the science that deals with creating materials through the manipulation at atomic and molecular levels, has been found to have the perspective of delivering inexpensive and operational solutions to this problem of membrane fouling, leading to improved membrane performance and hence providing access to safe drinking water to millions of people around the world . It has developed a proficient and profitable enduring solution through the adoption of innovative filtration membranes composed of various nanomaterials such as nanoparticles, carbon-based substances, and nanofibers infused into a polymeric matrix that improves the performance of conventional polymeric membranes in terms of improved water permeability, antifouling, and solute selectivity.…”
Section: Common Types Of Polymeric Nanomembranesmentioning
confidence: 99%
“…This is because in the presence of AgNPs, the membrane of the cell raptures in the course of endocytosis, enabling entry of the nanoparticles into the cell . They also have low toxicity to human beings and are easy to incorporate into various substrates for disinfection purposes …”
Section: Common Types Of Polymeric Nanomembranesmentioning
confidence: 99%
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“…View Article Online 5 improving flux 28 . In the case of PA TFC membranes, AgNPs can be integrated to the PA surfaces through two main approaches, i.e., in-situ nucleation of AgNPs on the surface and ex-situ synthesis of AgNPs, which are then integrated into the monomer solutions during interfacial polymerization 23,[29][30][31] Each method has its advantages and limitations. For example, the ex-situ synthesis provides more opportunities to control the size and surface chemistry of the AgNPs that are to be integrated into the PA layer; however, such coatings cannot be regenerated once the AgNPs are depleted during operation.…”
Section: Introductionmentioning
confidence: 99%