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1.
Silk fibroin (SF)/Cellulose Acetate (CA) blend nanofibrous membranes were prepared by electrospinning and their heavy metal
absorbabilities were examined in an aqueous solution after ethanol treatment. The electrospun nanofibrous membranes were comprised
of randomly oriented ultrafine fibers of 100–600 nm diameters. As a result of field emission electron microscope (FEEM), the
anti-felting properties of the blend nanofibrous membranes were markedly improved after treatment with 100 % ethanol when
SF was blended with CA. Metal ion adsorption test was performed with Cu2+ as a model heavy metal ion in a stock solution. The SF/CA blend nanofiber membranes showed higher affinity for Cu2+ in an aqueous solution than pure SF and pure CA nanofiber membranes. Especially, the blend nanofibrous membranes with 20
% content of CA had an exceptional performance for the adsorption of Cu2+, and the maximum milligrams per gram of Cu2+ adsorbed reached 22.8 mg/g. This indicated that SF and CA had synergetic effect. Furthermore, the parameters affecting the
metal ions adsorption, such as running time and initial concentration of Cu2+, had been investigated. The results showed that the adsorption of the Cu2+ sharply increased during the first 60 min, the amount of metal ions adsorbed increased rapidly as the initial concentration
increased and then slope of the increase decreased as the concentration further increased. This study provides the relatively
comprehensive data for the SF/CA blend nanofibrous membranes application to the removal of heavy metal ion in wastewater. 相似文献
2.
Cellulose nanowhisker (CNW) reinforced electrospun Bombyx mori silk fibroin (SF) nanofibers were fabricated. The morphology, structure, and mechanical properties of nanofibers were investigated
by FE-SEM, TEM, FTIR, and tensile testing. It was found that the nanofiber size decreased obviously from 250 nm in the unreinforced
mat to 77–160 nm in the CNW reinforced mats depending on the CNW content due to the increased conductivity of spinning dope.
In the reinforced mats, the CNWs were embedded in the SF matrix separated from each other, and aligned along the fiber axis.
There was a positive correlation between the CNW content and the tensile strength and Young’s modulus of reinforced mats.
However the strain at break dropped gradually with the increase of CNW. When the CNW content was 2 w/w%, the tensile strength
and Young’s modulus of reinforced SF nanofiber mats were about 2 times higher than those of unreinforced mat. 相似文献
3.
Mingbo Gu Kaitao Wang Wenli Li Chuanxiang Qin Jian-Jun Wang Lixing Dai 《Fibers and Polymers》2011,12(1):65-72
A series of blend nanofiber mats comprising poly(vinyl alcohol) (PVA) and polyurethane (PU) were prepared by dual-jet electrospinning
in various parameters. Orthogonal experimental design was used to investigate how those parameters affected on fiber diameters
and fiber diameter distribution. Altogether three parameters having three levels each were chosen for this study. The chosen
parameters were tip-to-collector distance (TCD), voltage and tip-to-tip distance (TTD). Fiber diameters, thermal properties,
mechanical properties and hydrophilicity of the blend nanofiber mats were examined by scanning electron microscopy (SEM),
thermogravimetric analysis (TGA), tensile test, contact angle and water absorption test, respectively. The results showed
that the optimum conditions for PVA/PU blend nanofiber mats fabricated by dual-jet electrospinning were TCD of 20 cm, voltage
of 18 kV and TTD of 4 cm. Besides, the thermal stability of PVA/PU blend nanofiber mats had been improved compared with pure
nanofibers. Furthermore, the elongation and tensile strength of the blend nanofiber mats were significantly increased compared
with pure PVA and pure PU, respectively. And the blend nanofiber mats exhibited well hydrophilicity. 相似文献
4.
A novel approach to preparing multifunctional composite nanofibrous membrane was developed. Polyacrylonitrile (PAN) nanofibrous membrane was fabricated by electrospinning and then the nitrile groups in PAN copolymer was chemically modified to obtain amidoxime modified PAN (AOPAN) nanofiber membrane which was further used as a functional support for laccase immobilization. During the process of reactive dye degradation catalyzed by the AOPAN nanofiber membrane immobilized with laccase, metal ion adsorption occurred at the same time. The chemical modification was confirmed by Fourier transform spectroscopy (FTIR). Scanning electron microscope (SEM) was employed to investigate the surface morphologies of the electrospun nanofibers before and after laccase immobilization. The effects of environmental factors on laccase activity were studied in detail. It was found that the optimum pH and temperature for the activity of immobilized laccase was 3.5 and 50 °C. The relative activity retention of the immobilized laccase decreased dramatically during the initial four repeated uses. After 20 days’ storage, the activity retention of immobilized laccase was still high above 60 %. It has also proved that laccase immobilized on AOPAN nanofiber membrane performed well in dye degradation and metal ion adsorption. 相似文献
5.
Xiaojie Li Shiying Teng Xianlin Xu Hang Wang Feng Dong Xupin Zhuang Bowen Cheng 《Fibers and Polymers》2018,19(4):775-781
A new type of hydrophobic polyacrylonitrile (PAN) nanofiber is fabricated by solution blowing of a blend solution of fluorine-containing polyacrylate (FPA) and PAN. The nanofibers’ surface composition, hydrophobicity, and protection ability were evaluated to clarify the effects of FPA addition. Results revealed that FPA addition increased the nanofiber diameter, as well as enhanced the hydrophobicity and transport properties of the nanofiber mats. The mats had average water contact angles of 123.44°, 132.11°, and 137.11° for FPA contents of 0.66 wt%, 1.98 wt%, and 3.30 wt%, respectively. All these results suggested the potential of the solution blowing nanofiber mats as protection materials. 相似文献
6.
Jatoi Abdul Wahab Gang Xu Hoik Lee Phan Duy Nam Kai Wei Seong Hun Kim Ick Soo Kim 《Fibers and Polymers》2016,17(11):1776-1781
We report our study on fabrication of soluble eggshell membrane (SESM) and silk fibroin (SF) nanofibers composite (SF/SESM) for facemasks by electrospinning. Biocompatibility of the SF and SESM, determined from hydrophilicity results, is exploited in SF/SESM nanocomposite for facemask application. The SF/SESM nanocomposites were prepared in different ratios of SF and SESM. The samples were characterized by scanning electron microscopy (SEM), FTIR and water droplet adsorption tests conducted via water contact angle (WCA) and water droplet diffusion. The results revealed that addition of SESM has insignificant effect on the electrospinnability of SF nanofibers in the studied ratios. The SEM results depicted regular morphology of the nanofibers except increase in nanofiber diameter with addition of SESM. The FTIR results confirmed respective peaks of SF and SESM in SF/SESM nanocomposite. WCA of the nanofibers decreased with addition of SESM such that for SF/SESM30, 30 % SESM, it reduced to 0 ° from 101 ° for pure SF nanofibers. The research results demonstrate SF/SESM30 nanocomposite as optimum ratio of SF and SESM for facemasks and other biomedical applications. 相似文献
7.
Antimicrobial electrospun silk fibroin mats with silver nanoparticles for wound dressing application
Pimpon Uttayarat Suwimol Jetawattana Phiriyatorn Suwanmala Jarurattana Eamsiri Theeranan Tangthong Suchada Pongpat 《Fibers and Polymers》2012,13(8):999-1006
In this report, silk fibroin (SF) mats coated with silver nanoparticles (AgNPs) were manufactured as a prototypic wound dressing and evaluated for antimicrobial properties. SF was extracted from cocoons of Thai silkworms Bombyx mori (variant Nangnoi Si Sa Ket) and fabricated into nonwoven mats by electrospinning. In a one-step synthesis method, colloidal AgNPs were prepared from silver nitrate by gamma irradiation and inspected by transmission electron microscopy. Using the in vitro disc diffusion and growth-inhibition assays, AgNP-coated SF mats effectively inhibited the growth of Staphyllococus aureus and Pseudomonas aeruginosa when the coating solution containing colloidal AgNPs was 4 mM, or equivalent to 50.4 ng/cm2 of adsorbed AgNPs. Based on these results, the AgNP-coated SF mats can potentially be used as antimicrobial wound dressings. 相似文献
8.
The effect of casting solvent on the structural characteristics and miscibility of regenerated silk fibroin/Poly(vinyl alcohol) blends 总被引:1,自引:0,他引:1
Regenerated silk fibroin(SF)/Poly(vinyl alcohol)[PVA] blend films were prepared using different casting solvents, water and
formic acid, to elucidate the effect of casting solvent on the structure and miscibility of SF/PVA blends. FTIR and XRD measurement
suggested thatβ-sheet conformation of SF was not changed by addition of PVA in case of formic acid casting and the casting solvent determined
the crystallized component of SF/PVA, leading to a different trend in the overall crystallinity between the two blends. The
casting solvent had a dominant role in deciding phase behavior and molecular miscibility of blend films. SEM observation and
DMTA measurement elucidated that water solvent produced phase-separated blend films while formic acid yielded one phase blend
films with partial miscibility in molecular level indicating that the miscibility of SF blend can be improved by choosing
a proper co-solvent. 相似文献
9.
The tussah silk fibroin (TSF) nanofibers with 611 nm diameters were prepared by electrospinning with the solvent hexafluoroisopropanol (HFIP). And then, the TSF nanofibers were crosslinked by 1-(3-Dimethylaminopropyl)-3-ethylcarbodiimide/N-Hydroxysuccinimide (EDC/NHS) crosslinking agent. The morphology and microstructure of the crosslinked TSF nanofibers were characterized by scanning electron microscopy (SEM), Fourier transforms infrared analysis (FTIR), X-ray diffraction, Instron electronic strength tester, and cell culture. After treatment with EDC/NHS crosslinking agent, the TSF nanofibers swelled and its average diameter increased from 611 to 841 nm. FTIR and X-ray diffraction results demonstrated that random coil, ??-helix, and ??-sheet co-existed in the TSF nanofiber mats, but the content of ??-sheet increased from 25.26 to 45.34 %, and the random coil content decreased from 32.47 to 24.94 %. Compared with the electrospun pure TSF nanofiber mats, the crosslinked TSF nanofiber mats exhibited a lower breaking tenacity and initial modulus, which were 5.51 MPa and 9.86 MPa, respectively. At the same time, the extension at break of the crosslinked TSF nanofiber achieved 109.38 %. In cell culture evaluation, the crosslinked TSF nanofibers were found to support cell adhesion and spreading fibroblast L373 and bone marrow mesenchymal stem cells (BMSCs), which had potential utility in a range of tissue engineering. 相似文献
10.
Application of electrospun silk fibroin nanofibers as an immobilization support of enzyme 总被引:1,自引:0,他引:1
Ki Hoon Lee Chang Seok Ki Doo Hyun Baek Gyung Don Kang Dae-Woo Ihm Young Hwan Park 《Fibers and Polymers》2005,6(3):181-185
Silk fibroin (SF) nanofibers were prepared by electrospinning and their application as an enzyme immobilization support was
attempted. By varying the concentration of SF dope solution the diameter of SF nanofiber was controlled. The SF nanofiber
web had high capacity of enzyme loading, which reached to 5.6 wt%. The activity of immobilizedα-chymotrypsin (CT) on SF nanofiber was 8 times higher than that on silk fiber and it increased as the fiber diameter decreased.
Sample SF8 (ca. 205 nm fiber diameter) has excellent stability at 25°C by retaining more than 90 % of initial activity after
24 hours, while sample SF11 (ca. 320 nm fiber diameter) shows higher stability in ethanol, retaining more than 45% of initial
activity. The formation of multipoint attachment between enzyme and support might increase the stability of enzyme. From these
results, it is expected that the electrospun SF nanofibers can be used as an excellent support for enzyme immobilization. 相似文献
11.
Poly(methyl methacrylate-glycidiyl methacrylate) p(MMA-GMA) film was fabricated by UV initiated photo-polymerization. Iminodiacetic acid ligand (IDA) was covalently immobilized to the p(MMA-GMA) film via ring opening reaction of epoxy groups. Cu(II) ion was chelated with the immobilized ligand. The morphology and properties of the films were characterized with SEM, FTIR, AFM, water content, the specific surface area, and contact angle. HSA (human serum albumin) was used as a model protein to describe the adsorption propency of the support. The information obtained in this research will serve for scaling up the process in industrial applications. The HSA adsorption capacity of the metal chelated film was found to be 2.7 mg/cm2 film. The p(MMA-GMA)-IDA-Cu(II) films exhibited a high adsorption capacity and fast adsorption rate compared to Cu(II) ion free counterpart. 相似文献
12.
Dimethylaminopropyl methacrylamide (DMAPMA) was grafted onto PET/wool blend fabrics by continuous UV irradiation. Union dyeing
of the photografted fabrics was investigated using three reactive dyes of α-bromoacrylamide reactive groups. The influence of grafting yield, DMAPMA concentration, NaCl amount, pH value, and dyeing
temperature on the dyeability was evaluated. The dyeability of both PET and wool components was improved significantly by
the DMAPMA photografting and successive reactive dyeing. Although the dyeability of the PET component in the blend substantially
was improved with higher grafting, equal dyeability between PET and wool was difficult to achieve due to more facile grafting
and higher reactivity of the wool component compared with the modified PET component. However, the color fastness of the PET/wool
blend fabric was excellent for all three colors. This study may offer a way to achieve union dyeing of PET/wool blend fabrics. 相似文献
13.
Gopal Panthi Nasser A. M. Barakat Prabodh Risal Ayman Yousef Bishweshwar Pant Afeesh R. Unnithan Hak Yong Kim 《Fibers and Polymers》2013,14(5):718-723
Easy fabrication, porosity, good mechanical properties, and composition controllable of the electrospun nanofiber mat make this material a promising candidate for wound dressing applications. In the present study, nylon6/gelatin electrospun nanofiber mats are introduced as novel wound dressing materials. The introduced mats were synthesized by electrospinning of nylon6 and gelatin mixtures, three mats containing different gelatin content were prepared; 10, 20 and 30 wt%. Interestingly, addition of the gelatin did not affect the mechanical properties of the nylon 6, moreover the mat containing 10 wt% gelatin revealed higher mechanical properties due to formation of spider-net like structure from very thin nanofibers (~10 nm diameter) bonding the main nanofibers. Biologically study indicates that gelatin incorporation strongly enhances the bioactivity performance as increasing the gelatin content linearly increases the MC3T3-E1 cell attachment. Overall, the obtained results recommend exploiting the introduced mats as wound dressing material. 相似文献
14.
Well-aligned PMIA nanofiber mats were fabricated by electrospinning and then hot-stretching along the fiber axis was used to improve the mechanical properties of nanofibers in this paper. Scanning electron microscopy (SEM), X-ray diffraction (XRD) and Differential scanning calorimetry (DSC) were used to characterize the morphology and properties of nanofibers. The results showed that the nanofibers became thinner and better alignment than the as-spun nanofibers after hotstretching, and the average diameter of the nanofibers decreased with the increasing of the tensile force. In the same time, hotstretching improved the crystallinity and T g of the as-spun PMIA nanofibers. The tensile strength and modulus of the hotstretched nanofiber mats peaked at ca.50 % and ca.196 % respectively at the tensile force of 12 N compared with the as-spun nanofiber mats. 相似文献
15.
We successfully fabricated bacterial cellulose/silk fibroin (BC/SF) composite plates having similar strength to that of human cortical bone (12.8–17.7 GPa). The mechanical properties of the BC/SF composite plates were investigated at various BC nanofiber contents. The BC nanofibers acted as good reinforcements for the stress transfer produced by the interactions between the BC nanofibers and the SF matrix, as confirmed by the molecular deformation of the BC nanofibers. The BC/SF composite plates have a promising potential as a replacement material for existing metal bone plate. 相似文献
16.
In this study, the regenerated silk fibroin (SF)/nylon 6 blend filaments were fabricated by the wet spinning and miscibility,
structural characteristics, and thermal behavior of blend filaments were elucidated. The XRD results implied that the amount
of crystalline region of each polymer did not change linearly with the blend ratio suggesting that there are some changes
in the miscibility depending on the mixing ratio. The SEM observation revealed that the miscibility of blend decreased with
an increase of nylon 6 resulting in a severe phase separation in 50/50 SF/nylon 6 filament. The miscibility governed the thermal
behavior of blend filaments. The melting point of nylon 6 remained constant until 50 % nylon 6 content, whereas the melting
point depression appeared in 30 % nylon 6 implying miscibility. Interestingly, the thermal decomposition of the nylon 6 component
was accelerated by the presence of SF and the acceleration action of SF became stronger as the miscibility increased. 相似文献
17.
Previous investigation results revealed that after the Low Temperature Plasma (LTP) treatment, the hydrophilicity of wool
fiber was improved significantly. Such improvement enhances the wool dyeing and finishing processes which might be due to
the changes of the wool surface to a more reactive one. In this paper, wool fibers were treated with LTP with different gases,
namely, oxygen, nitrogen and gas mixture (25 % hydrogen/75 % nitrogen). Investigations showed that chemical composition of
wool fiber surface varied differently with the different plasma gas used. The surface chemical composition of the different
LTP-treated wool fibers was evaluated with different characterization methods, namely FTIR-ATR, XPS and saturated adsorption
value. The experimental results were thoroughly discussed. 相似文献
18.
Three unreported cationic reactive dyes based on azobenzene were synthesized using a novel synthetic route. Synthesized dyestuffs containing three primary color dyes were characterized by FTIR, H-NMR, LC-MS, Element Analysis and UV-vis spectroscopic techniques. The absorption spectra of dyes were measured in three solvents with different polarities. The dyeing and color fastness properties of three cationic reactive dyes on wool, acrylic and wool/acrylic blend fabrics were determined. The optimum pH for wool and acrylic fabrics were 6 and 5, respectively. Effect of temperature, time on dyeing properties and color fastness properties on wool fabric showed the same tendency with acrylic fabric. The K/S value of wool fabric dyed with three dyes was similar to that of acrylic fabric when both fabrics were dyed simultaneously in the same dyebath using low dye concentration. Wool/acrylic blend fabric dyed with three cationic reactive dyes using onebath one-step method achieved good union dyeing property and excellent color fastness. 相似文献
19.
Muzafar A. Kanjwal Faheem A. Sheikh R. Nirmala Javier Macossay Hak Yong Kim 《Fibers and Polymers》2011,12(1):50-56
In the present study, we introduce poly(caprolactone) (PCL) nanofibers that contain hydroxyapatite (HAp) nanoparticles (NPs)
as a result of an electrospinning process. A simple method that does not depend on additional foreign chemicals has been employed
to synthesize HAp NPs through calcination of bovine bones. Typically, a colloidal gel consisting of PCL/HAp has been electrospun
to form nanofibers. Physiochemical aspects of prepared nanofibers were characterized for FE-SEM, TEM, XRD and FTIR which confirmed
nanofibers were well-oriented and had good dispersion of HAp NPs. Parameters affecting the utilization of the prepared nanofibers
in various nano-biotechnological fields have been studied; for instance, the bioactivity of the produced nanofiber mats was
investigated while incubated with stimulated body fluid (SBF). The results from incubation of nanofibers in SBF indicate that
incorporation of HAp strongly activates precipitation of the apatite-like materials because the HAp NPs act as seeds that
accelerate crystallization of the biological HAp from the utilized SBF. 相似文献
20.
Solution blowing process is a new nanofiber fabricating method with high productivity. In the present study, nylon 6 nanofiber mats were solution blown and the effects of spinning conditions on nanofibers morphology were investigated. The fiber diameter ranged from 150 to 750 nm which was affected by solution concentration, gas pressure and solution feeding rate. The solution blown fibers were three-dimensional curly which made loose construction in bulk. The filtration performance of solution blown mats was evaluated. The tested solution blown nanofiber mats showed high filtration efficiency of 83.10 % to 93.45 % for 0.3 µm particles filtration and extremely low pressure drop of 15.37 to 30.35 Pa. The results indicate the solution blown nanofiber mats will find potential application of high efficiency and low resistance filter. 相似文献