Nickel (II) Based Metal-Organic Framework Consolidated on Nanofibers Modified Track-Etched Membrane for Dye Removal
Drozhzhin N.A. Ponomareva O.Yu. Vinogradov I.I. Serpionov G.V. Kanet A. Nikolskaya D.V. Vershinina T.N.
30 September 2025E.A. Buketov Karaganda University Publish house
Eurasian Journal of Chemistry
2025#30Issue 3118 - 128 pp.
Metal-organic frameworks (MOFs) are promising adsorption agents with many potential applications. How-ever, most experiments exploring the potential applications of MOFs have used powders, which limits the range of possible applications. To solve this problem, an approach to design hybrid membrane (HM) based on track-etched membrane, electrospun nanofibers and MOF based on L-tryptophan, 1,2-bis(4-pyridyl)ethylene and Ni (II) (Ni-MOF) was proposed in the current paper. An investigation of Ni-MOF morphology on hydro-philic chitosan and hydrophobic polyvinylidene fluoride nanofibers showed that the Ni-MOF tends to form superstructures — spherical conglomerates consisting of flaky crystallites on both types of nanofibers. The HMs and Ni-MOF powder were characterized by SEM and PXRD. The adsorption properties of the Ni-MOF powder towards model anionic methyl orange (MO) and cationic rhodamine B (Rh B) including kinetics and isotherm were studied. An investigation of dyes removal by HMs in dead-end filtration mode indicates the ef-fectiveness of MO and Rh B adsorption as high as ~97 % (~380 μg/cm2) and ~9 % (~37 μg/cm2), respective-ly. The possibility of regeneration was also investigated. Thus, the HMs may find a potential application for advanced wastewater treatment processes to provide removal of MO in microfiltration mode.
adsorption , dye removal , electrospin-ning , hybrid membranes , metal-organic frameworks , nanofibers , track-etched membranes , water treatment
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Joint Institute for Nuclear Research, Joliot-Curie Street, 6, Dubna, 141980, Russian Federation
Institute of Batteries, Kabanbay Batyr Avenue, 53, Astana, Z00X8P9, Kazakhstan
Department of Chemistry, New Technologies and Materials, Dubna University, Universitetskaya Street, 19, Dubna, 141982, Russian Federation
Joint Institute for Nuclear Research
Institute of Batteries
Department of Chemistry
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