Preparations of Silver/Montmorillonite Biocomposite Multilayers and Their Antifungal Activity

Iconaru, Simona Liliana; Groza, Andreea; Stan, George; Predoi, Daniela; Gaiaschi, Sofia; Trușcă, Roxana; Chifiriuc, Carmen Mariana; Măruţescu, Luminiţa; Tite, Teddy; Stanciu, George A.; Hristu, Radu; Ghegoiu, Liliana; Badea, Monica Luminita; Turculeţ, Claudiu; Ganciu, M.; Chapon, Patrick

doi:10.3390/coatings9120817

Cited by 15 publications

(10 citation statements)

References 50 publications

(61 reference statements)

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“…In our previous works, we showed that at low radio frequency (rf) working powers, in magnetron sputtering plasma discharges, bioceramic multicomponent coatings for biomedical applications can be synthetized [ 10 , 11 , 12 ]. In [ 10 ], we showed that in rf magnetron discharge at about 1.2 × 10 −2 mbarr and 50 W rf power, after 4 h deposition time, regular granular-like structures on the surface of calcium phosphate layers deposited on Ti substrates can be generated.…”

Section: Introductionmentioning

confidence: 99%

Chitosan–Hydroxyapatite Composite Layers Generated in Radio Frequency Magnetron Sputtering Discharge: From Plasma to Structural and Morphological Analysis of Layers

et al. 2020

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Chitosan–hydroxyapatite composite layers were deposited on Si substrates in radio frequency magnetron sputtering discharges. The plasma parameters calculated from the current–voltage radio frequency-compensated Langmuir probe characteristics indicate a huge difference between the electron temperature in the plasma and at the sample holder. These findings aid in the understanding of the coagulation pattern of hydroxyapatite–chitosan macromolecules on the substrate surface. An increase in the sizes of the spherical-shape grain-like structures formed on the coating surface with the plasma electron number density was observed. The link between the chemical composition of the chitosan–hydroxyapatite composite film and the species sputtered from the target or produced by excitation/ionization mechanisms in the plasma was determined on the basis of X-ray photoelectron spectroscopy, Fourier transform infrared spectroscopy and residual gas mass spectrometry analysis.

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Section: Introductionmentioning

confidence: 99%

Chitosan–Hydroxyapatite Composite Layers Generated in Radio Frequency Magnetron Sputtering Discharge: From Plasma to Structural and Morphological Analysis of Layers

et al. 2020

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“…Expressions of b i : 0 (νb 0 −b 0 −1) 9 [(246400ν 14 + 1821120ν 13 − 8460480ν 12 − 12906880ν 11 +93515520ν 10 − 81950400ν 9 − 236792640ν 8 + 611976960ν 7 − 492589440ν 6 − 49147840ν 5 +376824000ν 4 − 280452480ν 3 + 85227520ν 2 − 5839680ν − 1471680)b 14 0 + (−2217600ν 13 −18607680ν 12 + 57536640ν 11 + 173698560ν 10 − 667941120ν 9 + 69612480ν 8 + 2200746240ν 7 −3307046400ν 6 + 1126258560ν 5 + 1568589120ν 4 − 1822826880ν 3 + 701245440ν 2 − 65802240ν −13245120)b 13 0 + (9651664ν 12 + 72896448ν 11 − 71144160ν 10 − 1119267776ν 9 + 2334557488ν 8 +1241451904ν 7 − 7695302720ν 6 + 6999898240ν 5 + 694820656ν 4 − 4653734208ν 3 +2633550112ν 2 − 412307648ν − 35070000)b 12 0 + (−20168192ν 11 − 188320000ν 10 − 269349632ν 9 +3675105280ν 8 − 4655667200ν 7 − 5325813248ν 6 + 14630393344ν 5 − 7433028608ν 4 −4361576960ν 3 + 5412468480ν 2 − 1487153920ν + 23110656)b 11 0 + (27832816ν 10 + 263480608ν 9 +1578408496ν 8 − 7878679680ν 7 + 5949022688ν 6 + 10909049536ν 5 − 17558841888ν 4 +4055022464ν 3 + 5381205040ν 2 − 3057657568ν + 331157488)b 10 0 + (−25001856ν 9 −160093280ν 8 − 3755607488ν 7 +11562032960ν 6 − 4672981696ν 5 − 14016774784ν 4 +14067898560ν 3 − 553288512ν 2 − 3242293440ν + 796109536)b 9 0 + (14223264ν 8 − 177285456ν 7 +5772680176ν 6 − 12292371344ν 5 + 1847905136ν 4 + 11989787152ν 3 − 7398538288ν 2 −610917680ν + 854517040)b 8 0 + (−4537016ν 7 + 541371400ν 6 − 6112123192ν 5 + 9363854984ν 4 +258573976ν 3 − 6649831976ν 2 + 2412668760ν + 190023064)b 7 0 + (2461976ν 6 − 676309972ν 5 +4625467524ν 4 − 5212862504ν 3 − 553817344ν 2 + 2307859708ν − 492799388)b 6 0 + (−4740824ν 5 +527632460ν 4 − 2460623128ν 3…”

Section: Appendix Bunclassified

“…Coating technology is indispensable in many applications fields [1][2][3][4][5]. A film/substrate system usually consists of a substrate and its thin coating film, where the substrate could be a rigid substrate or a soft substrate, while the coating film is usually formed by chemical synthesis methods or physical deposition techniques and is usually polymer thin films, also including some polymer-based composite coatings with specific properties such as high adherence, crystallinity, temperature and corrosion resistance, or high conductivity [6,7]. The integrity and reliability of film/substrate systems obviously depend on the adhesion strength of coatings on substrates, which is often quantified or defined in terms of the energy released on per unit film/substrate delamination area, i.e., the so-called energy release rate.…”

Section: Introductionmentioning

confidence: 99%

A Refined Theory for Characterizing Adhesion of Elastic Coatings on Rigid Substrates Based on Pressurized Blister Test Methods: Closed-Form Solution and Energy Release Rate

et al. 2020

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Adhesion between coatings and substrates is an important parameter determining the integrity and reliability of film/substrate systems. In this paper, a new and more refined theory for characterizing adhesion between elastic coatings and rigid substrates is developed based on a previously proposed pressurized blister method. A compressed air driven by liquid potential energy is applied to the suspended circular coating film through a circular hole in the substrate, forcing the suspended film to bulge, and then to debond slowly from the edge of the hole as the air pressure intensifies, and finally to form a blister with a certain circular delamination area. The problem from the initially flat coating to the stable blistering film under a prescribed pressure is simplified as a problem of axisymmetric deformation of peripherally fixed and transversely uniformly loaded circular membranes. The adhesion strength depends on the delamination area and is quantified in terms of the energy released on per unit delamination area, the so-called energy release rate. In the present work, the problem of axisymmetric deformation is reformulated with out-of-plane and in-plane equilibrium equations and geometric equations, simultaneously improved, and a new closed-form solution is presented, resulting in the new and more refined adhesion characterization theory.

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“…Among the metal ions, silver exhibits the highest toxicity for microorganisms and minimum toxicity towards animal cells. The excellent biocidal property combined with nontoxicity towards human cells [22,23] makes silver one of the highest priority materials for water purification. The antimicrobial spectrum of silver is extensive, including Gram-negative enterobacteria and Gram-positive cocci [24][25][26].…”

Section: Introductionmentioning

confidence: 99%

“…Hence, AgNPs have been either adsorbed on or embedded in various organic or inorganic substrates which include filter materials made of silica, zeolite, natural macroporous materials, carbon materials, fiberglass and polymers or paper of different types [36][37][38][39][40][41]. For instance, nanoparticles of silver were embedded in materials like, montmorillonites [23], polysulfone [42] cellulose acetate [37], fiberglass [43], polyurethane foams [44], ceramic filters [45][46][47][48] and activated carbon [49] to enhance their applicability, especially for water purification system. However, many times these materials associate with the drawbacks like relatively poor disinfection of water and poor structural stability in water purification system.…”

Section: Introductionmentioning

confidence: 99%

Antimicrobial activity of silver-coated hollow poly(methylmethacrylate) microspheres for water decontamination

et al. 2021

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Background Growing microbial resistance towards the existing antimicrobial materials appears as the greatest challenge for the scientific community and development of new antimicrobial materials has become an important research objective. Results In this work, antimicrobial activity of silver-coated hollow poly(methylmethacrylate) microspheres (PMB) having a diameter of 20–80 µm was evaluated against two bacterial strains, Gram-positive Bacillus subtilis (MTCC 1305) and Gram-negative Escherichia coli (MTCC 443). The polymeric PMMA microspheres were synthesized by solvent evaporation technique and were further coated with silver (Ag) under microwave irradiation on their outer surface using an electroless plating technique. It was observed that Ag was uniformly coated on the surface of microspheres. Characterization of the coated microspheres was performed using optical microscope (OMS), scanning electron microscope (SEM), energy dispersive X-ray spectroscopy (EDX), UV–Vis spectroscopy, FTIR spectroscopy and thermogravimetric analysis (TGA) techniques. We have shown that the silver-coated microspheres were potent bactericidal material for water as they are highly active against the tested microorganisms. The results of the antibacterial tests indicated that APMB particles showed enhanced inhibition rate for both Gram-positive and Gram-negative bacteria and also exhibited dose-dependent antibacterial ability. The diameters of zone of inhibition were14.3 ± 0.2 mm against B. subtilis and 15.2 ± 0.9 mm against E. coli at a concentration of 8 mg. At this concentration, total removal of both Bacillus subtilis and Escherichia coli was observed. The results of shake flask technique for a concentration of 8 mg showed no bacterial presence after 24 h in both the cases. In other words, the material acted efficiently in bringing down the bacterial count to zero level for the tested strains. During the experiments, we have also confirmed that use of this material for water disinfection does not cause leaching of silver ion in to the water solution. The material can be successfully regenerated by backwashing with water. Conclusions Considering the cost-effective synthesis, ability to regenerate and very low level of leaching of the material, it can be projected as an advanced material for water disinfection and antimicrobial application.

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Preparations of Silver/Montmorillonite Biocomposite Multilayers and Their Antifungal Activity

Cited by 15 publications

References 50 publications

Chitosan–Hydroxyapatite Composite Layers Generated in Radio Frequency Magnetron Sputtering Discharge: From Plasma to Structural and Morphological Analysis of Layers

Chitosan–Hydroxyapatite Composite Layers Generated in Radio Frequency Magnetron Sputtering Discharge: From Plasma to Structural and Morphological Analysis of Layers

A Refined Theory for Characterizing Adhesion of Elastic Coatings on Rigid Substrates Based on Pressurized Blister Test Methods: Closed-Form Solution and Energy Release Rate

Antimicrobial activity of silver-coated hollow poly(methylmethacrylate) microspheres for water decontamination

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