Electrospun Copoly(ether imide) Nanofibers Doped with Silver-Loaded Zeolite as Materials for Biomedical Applications

Hamciuc, Corneliu; Vlad‐Bubulac, Tăchiță; Bercea, Maria; Suflet, Dana Mihaela; Doroftei, Florica; Rîmbu, C.; Enache, Alexandru Alin; Kalvachev, Yuri; Todorova, Totka; Butnaru, Maria; Serbezeanu, Diana

doi:10.1021/acsapm.2c00892

Cited by 12 publications

(6 citation statements)

References 56 publications

(80 reference statements)

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“…Polyimides and PEIs containing Jeffamine segments have been prepared and characterized. They have potential applications as materials with high dielectric constant [ 8 ], membranes for gas separation [ 9 , 10 ], hydrophilic polyimides for microfiltration [ 11 ], materials for lithium polymer batteries [ 12 ], or materials for biomedical applications [ 13 , 14 ]. The thermal stability and toxicity of the volatiles eliminated during thermal decomposition of polymeric materials are very important because they dictate the possible applications and can give an indication of the influence they have on the environment in case of fire.…”

Section: Introductionmentioning

confidence: 99%

Tailoring Thermal and Electrical Properties of Jeffamine Segmented Polyetherimide Composite Films Containing BaTiO3 particles

Hamciuc¹,

Lisă

Serbezeanu³

et al. 2022

Polymers

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The continuous advancement of materials science has highlighted the ongoing need for additional studies on the main composite materials topics, particularly in the field of multifunctional nano-composites, towards improving their capability to meet multifaceted requirements in order to stimulate both scientific and technological development. In this study, we report the preparation and characterization of polyetherimides (PEIs) derived from 4,4′-(4,4′-isopropylidenediphenoxy) bis (phthalic anhydride) following a two-step polycondensation reaction using either 4,4′-(1,3-phenylenedioxy) dianiline, or Jeffamine ED-600 as comonomers, or a mixture of the two diamines. Based on the PEI containing flexible Jeffamine segments, polymer composite films were developed by incorporating BaTiO3 particles. The chemical structure and morphology of the composite films were investigated by FTIR spectroscopy and scanning electron microscopy. Thermal properties were determined by thermogravimetric analysis and differential scanning calorimetry. The influence of Jeffamine segments on the thermal decomposition process was investigated by TG/MS/FTIR measurements under air and nitrogen atmospheres. Based on the obtained data, the thermal decomposition mechanism was established and is discussed in accordance with the chemical structures of the polymers. The surface properties of the PEI and PEI-composite films were characterized by performing contact angle measurements. The addition of BaTiO3 increased the wettability of the surfaces. The dielectric characteristics of polymer composite films were investigated by broad band dielectric spectroscopy measurements. It was noticed that the addition of BaTiO3 nanoparticles to the copolymer matrix gradually enhanced the dielectric constant of the composites.

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Section: Introductionmentioning

confidence: 99%

Tailoring Thermal and Electrical Properties of Jeffamine Segmented Polyetherimide Composite Films Containing BaTiO3 particles

Hamciuc¹,

Lisă

Serbezeanu³

et al. 2022

Polymers

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“…Ze-Ag was then prepared by subjecting 1.5 g silylated zeolite L to a 0.1 N aqueous solution of AgNO 3 (30 mL) at 70 • C for 6 h, while keeping it away from light. Zeolite L and Ze-Ag were prepared following the previously published procedure [34].…”

Section: Preparation Of Epoxy Resin Nanocompositesmentioning

confidence: 99%

“…The resulting polymer composites exhibited antimicrobial activity and low cytotoxicity [33]. Moreover, recently, electrospun composite membranes based on copoly(ether imide)s generated from Jeffamine and further doped with silver-loaded zeolite L nanoparticles have been successfully produced and characterized [34].…”

Section: Introductionmentioning

confidence: 99%

Simultaneous Enhancement of Flame Resistance and Antimicrobial Activity in Epoxy Nanocomposites Containing Phosphorus and Silver-Based Additives

Vlad‐Bubulac¹,

Hamciuc²,

Serbezeanu³

et al. 2023

Molecules

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The design and manufacture of innovative multifunctional materials possessing superior characteristics, quality and standards, rigorously required for future development of existing or emerging advanced technologies, is of great importance. These materials should have a very low degree of influence (or none) on the environmental and human health. Adjusting the properties of epoxy resins with organophosphorus compounds and silver-containing additives is key to the simultaneous improvement of the flame-resistant and antimicrobial properties of advanced epoxy-based materials. These environmentally friendly epoxy resin nanocomposites were manufactured using two additives, a reactive phosphorus-containing bisphenol derived from vanillin, namely, (4-(((4-hidroxyphenyl)amino)(6-oxido-6H-dibenzo[c,e][1,2]oxaphosphinin-6-yl)methyl)-2-methoxyphenyl) phenylphosphonate (BPH), designed as both cross-linking agent and a flame-retardant additive for epoxy resin; and additional silver-loaded zeolite L nanoparticles (Ze–Ag NPs) used as a doping additive to impart antimicrobial activity. The effect of BPH and Ze–Ag NPs content on the structural, morphological, thermal, flame resistance and antimicrobial characteristics of thermosetting epoxy nanocomposites was investigated. The structure and morphology of epoxy nanocomposites were investigated via FTIR spectroscopy and scanning electron microscopy (SEM). In general, the nanocomposites had a glassy and homogeneous morphology. The samples showed a single glass transition temperature in the range of 166–194 °C and an initiation decomposition temperature in the range of 332–399 °C. The introduction of Ze–Ag NPs in a concentration of 7–15 wt% provided antimicrobial activity to epoxy thermosets.

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“…32 Silver cation-containing zeolite shows significant antibacterial activity, although neat zeolites are not active against microorganisms. 33,34 Incorporation of silverloaded zeolite into packaging films will improve their potential through a rational Ag diffusion rate (lower release) than the neat film containing Ag nanoparticles. 35 Clinoptilolite, a common natural zeolite belonging to the heulandite (HEU) group, has high exchange capacities, unique nanoscale pores, availability, low cost, nonreactive nature, and environmental compatibility and has been widely used in various applications.…”

Section: Introductionmentioning

confidence: 99%

“…In the case of free antimicrobial agents, their burst release will limit their long-term antimicrobial behavior for practical applications. , Therefore, exploiting appropriate carriers such as zeolite for hosting antimicrobial agents (such as silver) could protect them and provide a controlled release profile for long-term applications . Silver cation-containing zeolite shows significant antibacterial activity, although neat zeolites are not active against microorganisms. , Incorporation of silver-loaded zeolite into packaging films will improve their potential through a rational Ag diffusion rate (lower release) than the neat film containing Ag nanoparticles …”

Section: Introductionmentioning

confidence: 99%

Silver/Hydrogen-Exchanged Zeolites Embedded in Modified Polyethylene Blends for Antibacterial Packaging with Prolonged Color Stability

Soleimani

Farahmandghavi

Morshedian

et al. 2023

ACS Appl. Polym. Mater.

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Antibacterial composite polymers are promising substrates for food packaging to reduce or inhibit the growth of foodborne pathogens. In this study, ion-exchangeable ions of zeolite were partially or wholly exchanged with silver (Ag + ) and ammonium ions and then subjected to heat treatment to generate hydrogen ions (AgH 1 Z) through the heat decomposition of ammonium ions. AgH 1 Z was incorporated into LDPE/LLDPE (70/30 w/w %) and their blends with ethylene vinyl alcohol copolymer (EVOH) and polyethylene-graf t-maleic anhydride (PE Ma ) to produce the corresponding antibacterial composite samples. The loading of the silver ion to the zeolite structure during the ion-exchange process and its efficiency were inspected by several analyses. The prepared composites possessing hydrogenexchanged zeolite (ΔE* of 0.11 for LL@AgH 1 Z) presented prolonged color stability relative to those without hydrogen (ΔE* of 13.87 for LL@AgZ). Interestingly, composite films have reliable optical properties (haze and transparency) compared to the corresponding neat polymer films. Scanning electron microscopy (SEM) micrographs illustrate that the addition of PE Ma to the LDPE/LLDPE matrix improves the AgH 1 Z particle dispersion, while EVOH induces a droplet-matrix morphology. The effect of AgH 1 Z and polymer blending on water vapor (WVTR) and the oxygen (OTR) transmission rate and mechanical behavior of composite samples were investigated. The silver ion release profile demonstrates a higher cumulative release amount for samples containing EVOH (0.069 mg) and PE Ma (0.044 mg) than that for the LL (0.039) sample, after 10 days of incubation in an acidic solution. The antibacterial activity results reveal remarkable inhibitory activity against Escherichia coli and Staphylococcus aureus bacteria for all composite samples. Furthermore, accomplished biocide performance shows a remarkable antibacterial response toward both bacteria with R values higher than 4, in the presence of EVOH and PE Ma polymers, which denotes their potentiality for advanced antibacterial food packaging.

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Electrospun Copoly(ether imide) Nanofibers Doped with Silver-Loaded Zeolite as Materials for Biomedical Applications

Cited by 12 publications

References 56 publications

Tailoring Thermal and Electrical Properties of Jeffamine Segmented Polyetherimide Composite Films Containing BaTiO3 particles

Tailoring Thermal and Electrical Properties of Jeffamine Segmented Polyetherimide Composite Films Containing BaTiO3 particles

Simultaneous Enhancement of Flame Resistance and Antimicrobial Activity in Epoxy Nanocomposites Containing Phosphorus and Silver-Based Additives

Silver/Hydrogen-Exchanged Zeolites Embedded in Modified Polyethylene Blends for Antibacterial Packaging with Prolonged Color Stability

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