2019
DOI: 10.3390/membranes9070087
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Mixed Matrix Poly(Vinyl Alcohol)-Copper Nanofibrous Anti-Microbial Air-Microfilters

Abstract: Membranes decorated with biocide materials have shown great potential for air sanitization but can suffer from biocide agent leaching by dissolution in water. In order to tackle the diffusion of biocide metal ions from the fiber matrix, composite nanofiber membranes of poly(vinyl alcohol) (PVA) cross-linked with copper (II) acetate have been successfully engineered via sol–gel electrospinning, providing a stable mean for air bactericidal microfiltration. The novelty lies in the bonding strength and homogeneous… Show more

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Cited by 18 publications
(14 citation statements)
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“…[74,75] Antimicrobial metal NPs, such as silver or copper, were successfully incorporated into the filter structure by the addition of metal nitrates or metal acetates into the electrospinning solution, followed by the photoreduction of electrospun fibers by means of ultraviolet (UV) light. [37,67,76,77] However, to avoid the increase in the conductivity within the electrospun jet due to the inclusion of a metal salt, immobilization can be performed, e.g., by means of sol-gel crosslinking. [76] Several inorganic fibers were fabricated by thermal treatment of electrospun precursors prepared from polymeric solutions.…”
Section: Electrospinningmentioning
confidence: 99%
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“…[74,75] Antimicrobial metal NPs, such as silver or copper, were successfully incorporated into the filter structure by the addition of metal nitrates or metal acetates into the electrospinning solution, followed by the photoreduction of electrospun fibers by means of ultraviolet (UV) light. [37,67,76,77] However, to avoid the increase in the conductivity within the electrospun jet due to the inclusion of a metal salt, immobilization can be performed, e.g., by means of sol-gel crosslinking. [76] Several inorganic fibers were fabricated by thermal treatment of electrospun precursors prepared from polymeric solutions.…”
Section: Electrospinningmentioning
confidence: 99%
“…[37,67,76,77] However, to avoid the increase in the conductivity within the electrospun jet due to the inclusion of a metal salt, immobilization can be performed, e.g., by means of sol-gel crosslinking. [76] Several inorganic fibers were fabricated by thermal treatment of electrospun precursors prepared from polymeric solutions. [78,79] Although the thermal treatment of electrospun precursors is usually carried out under ambient air to decompose organic components, inert atmospheres were also applied to preserve carbon species in the fibers.…”
Section: Electrospinningmentioning
confidence: 99%
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“…Membranes 2020, 10, x FOR PEER REVIEW 9 of 17 Different metal-based nanocomposite materials have also been developed for water disinfection. For instance, mixed matrix cross-linked PVA-Cu nanocomposite fibers have shown over 99.5% filtration efficiency in removing E. coli [68]. Certainly, copper is well known for its strong antibacterial activity; for example, it is recognized to kill 99.9% of pathogens in 2 h. Commonly, copper ions can kill bacteria on direct contact due to DNA degradation [69,70].…”
Section: Composite Membranes For Water Disinfection: the Role Of New mentioning
confidence: 99%
“…However, high-efficiency air filters accompany a large resistance to airflow, possibly costing up to a quarter of power consumption in large commercial HVAC systems. , Additionally, as time goes by, the filter will gradually become clogged by the PM coating, so the air resistance further rises steeply . Fabricating nanofiber filters is an ideal way to reduce air resistance. The possibility of particle capture increases due to the larger surface area of fibers on the nanometer scale, ensuring effective PM removal with a much thinner filter. Besides, lower air resistance occurs when the nanofiber diameter is comparable to or smaller than the mean free path of air molecules, thus introducing a slip effect. , However, nanofiber filters are usually made into membranes, which is not suitable for facilitation in building ventilation systems.…”
Section: Introductionmentioning
confidence: 99%