Yazar "Yalcin, M. Serkan" seçeneğine göre listele

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    Electrospun Composite Nanofibers Based on Poly (epsilon-Caprolactone) and Styrax Liquidus (Liquidambar orientalis Miller) as a Wound Dressing: Preparation, Characterization, Biological and Cytocompatibility Results
    (Springer, 2022) Demir, Didem; Ozdemir, Sadin; Ceylan, Seda; Yalcin, M. Serkan; Sakim, Burcu; Bolgen, Nimet
    In this study, styrax liquidus (sweet gum balsam) extracted from Liquidambar orientalis Mill. incorporated PCL fibrous scaffolds were prepared using the electrospinning method. The effects of the styrax liquidus content on the prepared scaffolds were investigated using different physico-chemical and morphological analyses. Then, the styrax-loaded nanofibers were examined for their antioxidant activity, anti-biofilm, metal chelating, antimicrobial and DNA cleavage properties. The results obtained from these studies showed that the nanofibers exhibited effective biological activity depending on the weight ratio of the styrax liquidus. In light of the data obtained from the characterization and biological studies, a sample with high ratio of balsam was built for determining the cytocompatibility analysis in vitro. The cytotoxicity studies of the selected membrane were conducted using mouse embryonic fibroblast cells. The fibrous scaffolds lead to increase the cell number as a result of high viability. According to the results, we propose a novel biocompatible electrospun hybrid scaffold with antioxidant and antimicrobial properties that can be used as wound healing material for potential tissue engineering applications.
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    Improvement in performance of g-C3N4 nanosheets blended PES ultrafiltration membranes including biological properties
    (Elsevier, 2021) Sert, Buse; Ozay, Yasin; Harputlu, Ersan; Ozdemir, Sadin; Yalcin, M. Serkan; Ocakoglu, Kasim; Dizge, Nadir
    This study aims to investigate the modification of polyethersulphone (PES) membrane with graphitic carbon nitride (g-C3N4) nanosheets for improving the antifouling and separation performance. The nanocomposite membranes were fabricated with blending of different g-C3N4 nanosheets (0.50, 1.00, and 2.00 wt%) into PES and they were synthesized by the phase inversion method. The fabricated g-C3N4 nanosheets and composite membranes were analyzed for their morphology. Scanning electron microscopy (SEM) with Energy Dispersive X-Ray Analysis (EDX) mapping were used to detect the distribution of g-C3N4 nanosheets on membrane surface, whereas surface roughness of membrane was evaluated by atomic force microscopy (AFM). The composite membrane surface was found to be hydrophilic (67.54 degrees), while the water flux of the composite membrane was found to be 254.8 L/m(2)/h for 2.00 wt% g-C3N4/PES membrane. The bovine serum albumin (BSA) separation tests indicated that the composite membrane supplied 98.5% BSA rejection ratio. Moreover, a significant improvement in antifouling characteristics were verified from BSA filtration experiments. g-C3N4 was also investigated for some of its biological properties such as antioxidant, antimicrobial, DNA cleavage, biofilm inhibition, and bacterial viability effect. g-C3N4 showed good free radical scavenging activity and moderate chelating activity at 500 mg/L. It was also determined that single-strand DNA cleavage activities occurred at all tested concentrations. g-C3N4 exhibited significant antibiofilm activity and inhibitory effects on E. coli vitality as 90.9%, 97.1%, and 98.9% at 250, 500, and 1000 mg/L, respectively. This study provides a simple and useful guideline to create a UF membrane resistant against organic fouling and expand its practical applications for wastewater treatment.
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    Öğe
    Investigation of Antimicrobial Activity of Iron Oxide Nanoparticles (FeONPs) and Zinc Oxide Nanoparticles (ZnONPs) Produced with Aerial Part Extract of Cucumber
    (Springer, 2024) Alterkaoui, Aya; Eskikaya, Ozan; Ozdemir, Sadin; Yalcin, M. Serkan; Dizge, Nadir
    One of the most threatening factors to human and living health today, as in the past, is pathogens, which cause significant damage to health. Many materials are used to destroy such bacteria. The investigation of antibacterial properties of materials containing heavy metals produced with plant extracts continues. In this study, iron and zinc oxide nanoparticles (FeONPs and ZnONPs) were produced with cucumber aerial part extract. The nanoparticles have diameters ranging from 60 to 120 nm for FeONPs and 70 to 130 nm for ZnONPs. The antibacterial properties of the produced materials were investigated. The biological evaluation of the ZnONPs and FeONPs was also reported in this study. The antioxidant activity of ZnONPs and FeONPs was found 48.00%, and 40.65%, respectively, at 100 mg/L concentration. ZnONPs exhibited significantly antimicrobial activity than FeONPs. Both NPs showed excellent DNA nuclease activity and also E. coli cell viability was strongly inhibited at all tested doses. At 250 mg/L, ZnONPs inhibited P. aeruginosa and S. aureus biofilms by 90.1% and 94.0%, respectively. FeONPs also reduced biofilm formation against P. aeruginosa and S. aureus by 87.8% and 93.4% at 250 mg/L, respectively. However, when all the results were compared, it was observed that ZnONP had a slightly higher antioxidant effect than FeONPs. The antibacterial effect of cucumber, particularly extracted from its waste aerial parts, demonstrated promising potential in combating microbial infections. This effect is evidenced by the utilization of cucumber extract in the synthesis of nanoparticles, namely FeONPs and ZnONPs, which exhibited significant antibacterial properties. The study underscores the importance of exploring natural sources like cucumber in developing novel antimicrobial agents. Further research in this area could unveil additional mechanisms underlying cucumber's antibacterial activity and facilitate the development of effective antibacterial treatments derived from natural sources.
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    Öğe
    Investigation of the treatment and antibacterial properties of pollutant-containing water using black phosphorus blended polyethersulfone membranes
    (Elsevier Ltd, 2024) Eskikaya, Ozan; Kucukosman, Rıdvan; Ozdemir, Sadin; Yalcin, M. Serkan; Ocakoglu, Kasım; Dizge, Nadir
    The most important problem of membrane processes is clogging and therefore the reduction of their useful life. In order to eliminate such problems, the production of composite membranes is an option in membrane treatment systems. In this study, the usability of black phosphorus (BP) in membrane treatment systems, and its effect on antibacterial and treatment performance were studied. BP blended PES membranes (BP@PES) produced by loading BP into the polyethersulfone (PES) membranes were used for the treatment of bovine serum albumin (BSA) and Escherichia coli (E. coli). For this purpose, BP was added at three different amounts (0.5 %, 1.0 %, and 2.0 %) into PES membranes. Membranes with different BP amounts produced were named as 0.5%BP@PES, 1.0%BP@PES, and 2.0%BP@PES. After the production of these composite membranes, they were used in the dead-end filtration system and compared with the PES membrane without BP (bare PES). The removal effectiveness of bare PES was found to be 53.40 % in the BSA rejection results, and it was discovered to be 60.90 %, 97.15 %, and 100 % for 0.5%BP@PES, 1.0%BP@PES, and 2.0%BP@PES, respectively. The antioxidant activity of BP was 70.86% at 100 mg/L. Newly prepared BP caused single-strand DNA nuclease abilities at 50, 100, and 200 mg/L. BP showed the effective antimicrobial activity. The most antimicrobial activity was determined as a minimum inhibitory concentration (MIC) value of 8 mg/L against E. hirae and 100 % E. coli viability inhibition activity was achieved at 50 and 100 mg/L after 90 min exposure. BP also inhibited the biofilm formation of P. aeruginosa at 87.19 % and S. aureus at 90.28 % at 50 mg/L. Thus, both the effect of BP on membrane performance and its antibacterial properties were investigated. Pure water fluxes, BSA and E.coli rejection performances, and antibacterial properties of all membranes used in the membrane filtration system were investigated in detail. It is recommended to further investigate BP-containing membranes with different production techniques.
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    Polyethersulfone membranes modified with CZTS nanoparticles for protein and dye separation: Improvement of antifouling and self-cleaning performance
    (Elsevier, 2021) Ocakoglu, Kasim; Dizge, Nadir; Colak, Suleyman Gokhan; Ozay, Yasin; Bilici, Zeynep; Yalcin, M. Serkan; Ozdemir, Sadin
    In this study, a novel polyethersulphone (PES) nanocomposite membrane incorporated with copper zinc tin sulfide (Cu2ZnSnS4) nanoparticles (CZTS NPs) was prepared through the phase inversion method. First, the samples containing different copper and zinc ratios in CZTS stoichiometry were prepared and characterized. The effect of copper and zinc ratio changes were examined on the photocatalytic properties of both NPs and nanocomposite membranes. The photocatalytic effect was tested and BR18 dye was degraded at 88.0% efficiency when exposed to visible light for 180 min in the presence of CZTS1.0 NPs catalyst. The results also exhibited that CZTS NPs blended membrane showed good self-cleaning performance. Second, we investigated the antioxidant, DNA cleavage, and biofilm inhibition activities of CZTS NPs. The antimicrobial activities of CZTS NPs were tested against seven microbial strains. The highest 2,2-diphenyl-1-picrylhydrazyl (DPPH) scavenging and chelating activities were found as 81.80 +/- 1.75% and 72.19 +/- 4.63%, respectively. CZTS NPs exhibited double-strand DNA cleavage activity at 500 mg/L. They showed significant biofilm inhibition as 92.15 +/- 5.67% against Staphylococcus aureus. CZTS NPs displayed moderate antimicrobial effects against tested microorganisms. Third, CZTS NPs were blended in polyethersulphone (PES) membrane and the morphology as well as performance of the fabricated nanocomposite membranes were systematically investigated by SEM-EDX, porosity, water contact angle, antifouling, and rejection measurements. The water flux of resulting nanocomposite membranes was markedly enhanced due to the introducing of CZTS NPs. Meanwhile, the nanocomposite membranes demonstrated remarkable antifouling properties (flux recovery ratio similar to 94%) in contrast with the bare PES (flux recovery ratio similar to 51%) when BSA was filtrated. The high retention of BSA (100%) as well as high permeation flux (73.8 +/- 9.8 L/m(2)/h) of the CZTS2.00 wt% membrane demonstrated that the constructed nanocomposite membrane possessed the characteristics of a promising membrane for purification of proteins.
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    Toxicity, Antibacterial, Antioxidant, Antidiabetic, and DNA Cleavage Effects of Dextran-Graft-Polyacrylamide/Zinc Oxide Nanosystems
    (Springer, 2024) Yalcin, M. Serkan; Ozdemir, Sadin; Prokopiuk, Volodymyr; Virych, Pavlo; Onishchenko, Anatolii; Tollu, Gulsah; Pavlenko, Vadim
    Synthesis of metal oxide nanoparticles-polymer nanocomposites is an emerging strategy in nanotechnology to improve targeted delivery and reduce the toxicity of nanoparticles. In this study, we report biological effects of previously described hybrid nanocomposites containing dextran-graft-polyacrylamide/zinc oxide nanoparticles (D-PAA/ZnO NPs) prepared from zinc sulfate (D-PAA/ZnONPs(SO42-)) and zinc acetate (D-PAA/ZnONPs(-OAc)) focusing primarily on their antimicrobial activity. D-PAA/ZnONPs(SO42-) and D-PAA/ZnONPs(-OAc) nanosystems were tested in a complex way to assess their antioxidant activity (DPPH assay), antidiabetic potential (alpha-amylase inhibition), DNA cleavage activity, antimicrobial, and antibiofilm activity. In addition, the toxicity of D-PAA/ZnONPs(SO42-) and D-PAA/ZnONPs(-OAc) nanosystems against primary murine splenocytes was tested using MTT assay. The studied nanosystems inhibited E.coli growth. For all the investigated strains, minimum inhibitory concentrations (MICs) of D-PAA/ZnONPs(SO42-) and D-PAA/ZnONPs(-OAc) were in the range of 8 mg/L-128 mg/L and 16 mg/L-128 mg/L, respectively. The nanocomposites demonstrated effective antibiofilm properties as 94.27% and 86.43%. The compounds showed good antioxidant, anti-alpha-amylase, and DNA cleavage activities. D-PAA/ZnONPs(SO42-) and D-PAA/ZnONPs(-OAc) nanosystems reduced cell viability and promoted cell death of primary murine spleen cells at concentrations higher than those that proved to be antibacterial indicating the presence of therapeutic window. D-PAA/ZnONPs(SO42-) and D-PAA/ZnONPs(-OAc) nanosystems show antioxidant, antidiabetic, DNA cleavage, antimicrobial, and antibiofilm activity against the background of good biocompatibility suggesting the presence of therapeutic potential, which should be further investigated in vivo.