TY  - JOUR
AU  - Embirsh, Hifa Salah Adeen
AU  - Stajčić, Ivana
AU  - Gržetić, Jelena
AU  - Mladenović, Ivana O.
AU  - Anđelković, Boban D.
AU  - Marinković, Aleksandar
AU  - Vuksanović, Marija M.
PY  - 2023
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/6370
AB  - This paper presents sustainable technology for environmentally friendly composite production. Biobased unsaturated polyester resin (b-UPR), synthesized from waste polyethylene terephthalate (PET) glycosylate and renewable origin maleic anhydride (MAnh) and propylene glycol (PG), was reinforced with unmodified and vinyl-modified biosilica nanoparticles obtained from rice husk. The structural and morphological properties of the obtained particles, b-UPR, as well as composites, were characterized by Fourier-transform infrared spectroscopy (FTIR), nuclear magnetic resonance spectroscopy (NMR), scanning electron microscopy (SEM), and transmission electron microscopy (TEM) techniques. The study of the influence of biosilica modification on the mechanical properties of composites was supported by hardness modeling. Improvement of the tensile strength of the b-UPR-based composite at 2.5 wt.% addition of biosilica modified with vinyl silane, named “b-UPR/SiO2-V” composite, has been achieved with 88% increase. The thermal aging process applied to the b-UPR/SiO2-V composite, which simulates use over the product’s lifetime, leads to the deterioration of composites that were used as fillers in commercial unsaturated polyester resin (c-UPR). The grinded artificially aged b-UPR composites were used as filler in c-UPR for the production of a table top layer with outstanding mechanical properties, i.e., impact resistance and microhardness, as well as fire resistance rated in the V-0 category according to the UL-94 test. Developing sustainable composites that are chemically synthesized from renewable sources is important from the aspect of preserving the environment and existing resources as well as the extending their life cycle.
PB  - MDPI
T2  - Polymers
T1  - Synthesis, Characterization and Application of Biobased Unsaturated Polyester Resin Reinforced with Unmodified/Modified Biosilica Nanoparticles
VL  - 15
IS  - 18
SP  - 3756
DO  - 10.3390/polym15183756
ER  - 

@article{
author = "Embirsh, Hifa Salah Adeen and Stajčić, Ivana and Gržetić, Jelena and Mladenović, Ivana O. and Anđelković, Boban D. and Marinković, Aleksandar and Vuksanović, Marija M.",
year = "2023",
abstract = "This paper presents sustainable technology for environmentally friendly composite production. Biobased unsaturated polyester resin (b-UPR), synthesized from waste polyethylene terephthalate (PET) glycosylate and renewable origin maleic anhydride (MAnh) and propylene glycol (PG), was reinforced with unmodified and vinyl-modified biosilica nanoparticles obtained from rice husk. The structural and morphological properties of the obtained particles, b-UPR, as well as composites, were characterized by Fourier-transform infrared spectroscopy (FTIR), nuclear magnetic resonance spectroscopy (NMR), scanning electron microscopy (SEM), and transmission electron microscopy (TEM) techniques. The study of the influence of biosilica modification on the mechanical properties of composites was supported by hardness modeling. Improvement of the tensile strength of the b-UPR-based composite at 2.5 wt.% addition of biosilica modified with vinyl silane, named “b-UPR/SiO2-V” composite, has been achieved with 88% increase. The thermal aging process applied to the b-UPR/SiO2-V composite, which simulates use over the product’s lifetime, leads to the deterioration of composites that were used as fillers in commercial unsaturated polyester resin (c-UPR). The grinded artificially aged b-UPR composites were used as filler in c-UPR for the production of a table top layer with outstanding mechanical properties, i.e., impact resistance and microhardness, as well as fire resistance rated in the V-0 category according to the UL-94 test. Developing sustainable composites that are chemically synthesized from renewable sources is important from the aspect of preserving the environment and existing resources as well as the extending their life cycle.",
publisher = "MDPI",
journal = "Polymers",
title = "Synthesis, Characterization and Application of Biobased Unsaturated Polyester Resin Reinforced with Unmodified/Modified Biosilica Nanoparticles",
volume = "15",
number = "18",
pages = "3756",
doi = "10.3390/polym15183756"
}

Embirsh, H. S. A., Stajčić, I., Gržetić, J., Mladenović, I. O., Anđelković, B. D., Marinković, A.,& Vuksanović, M. M.. (2023). Synthesis, Characterization and Application of Biobased Unsaturated Polyester Resin Reinforced with Unmodified/Modified Biosilica Nanoparticles. in Polymers
MDPI., 15(18), 3756.
https://doi.org/10.3390/polym15183756

Embirsh HSA, Stajčić I, Gržetić J, Mladenović IO, Anđelković BD, Marinković A, Vuksanović MM. Synthesis, Characterization and Application of Biobased Unsaturated Polyester Resin Reinforced with Unmodified/Modified Biosilica Nanoparticles. in Polymers. 2023;15(18):3756.
doi:10.3390/polym15183756 .

Embirsh, Hifa Salah Adeen, Stajčić, Ivana, Gržetić, Jelena, Mladenović, Ivana O., Anđelković, Boban D., Marinković, Aleksandar, Vuksanović, Marija M., "Synthesis, Characterization and Application of Biobased Unsaturated Polyester Resin Reinforced with Unmodified/Modified Biosilica Nanoparticles" in Polymers, 15, no. 18 (2023):3756,
https://doi.org/10.3390/polym15183756 . .

TY  - JOUR
AU  - Rabab, Salih
AU  - Veličković, Zlate
AU  - Milošević, Milena
AU  - Pavlović, Vera P.
AU  - Cvijetić, Ilija
AU  - Sofrenić, Ivana V.
AU  - Gržetić, Jelena D.
AU  - Marinković, Aleksandar
PY  - 2023
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/6018
AB  - Multifunctional lignin bio-based adsorbent, b-LMS, was obtained via inverse copolymerization in the suspension of acryloyl modified kraft lignin (KfL-AA) and bio-based trimethylolpropane triacrylate (bio-TMPTA). Morphological and structural characterization of KfL-AA and b-LMS was performed using BET, FTIR, Raman, NMR, TGA, SEM, and XPS techniques. The b-LMS microspheres with 253 ± 42 μm diameters, 69.4 m2 g−1 surface area, and 59% porosity efficiently adsorb Malachite Green (MG), Tartrazine (T), and Methyl Red (MR) dye. The influence of pH, pollutant concentration, temperature, and time on the removal efficiency was studied in a batch mode. Favorable and spontaneous processes with high adsorption capacities e.g. 116.8 mg g−1 for MG, 86.8 mg g−1 for T, and 68.6 mg g−1 for MR indicate the significant adsorptive potential of b-LMS. Results from diffusional and single mass transfer resistance studies indicate that pore diffusion is a rate-limiting step. Theoretical calculations confirmed a higher affinity of b-LMS to cationic dye MG compared with an anionic and neutral one, i.e. T and MR, respectively. The data fitting from a flow system, using semi-empirical equations and Pore Surface Diffusion Modelling (PSDM) provided breakthrough point determination. The results from the desorption and competitive adsorption study proved the exceptional performance of b-LMS. Moreover, sulfation of b-LMS, i.e.production of b-LMS-OSO3H, introduced high-affinity sulfate groups with respect to cationic dye and cations. Developed methodology implements the principle of sustainable development and offers concept whose results contribute to the minimization of environmental pollution.
PB  - Academic Press
T2  - Journal of Environmental Management
T1  - Lignin based microspheres for effective dyes removal: Design, synthesis and adsorption mechanism supported with theoretical study
VL  - 326
SP  - 116838
DO  - 10.1016/j.jenvman.2022.116838
ER  - 

@article{
author = "Rabab, Salih and Veličković, Zlate and Milošević, Milena and Pavlović, Vera P. and Cvijetić, Ilija and Sofrenić, Ivana V. and Gržetić, Jelena D. and Marinković, Aleksandar",
year = "2023",
abstract = "Multifunctional lignin bio-based adsorbent, b-LMS, was obtained via inverse copolymerization in the suspension of acryloyl modified kraft lignin (KfL-AA) and bio-based trimethylolpropane triacrylate (bio-TMPTA). Morphological and structural characterization of KfL-AA and b-LMS was performed using BET, FTIR, Raman, NMR, TGA, SEM, and XPS techniques. The b-LMS microspheres with 253 ± 42 μm diameters, 69.4 m2 g−1 surface area, and 59% porosity efficiently adsorb Malachite Green (MG), Tartrazine (T), and Methyl Red (MR) dye. The influence of pH, pollutant concentration, temperature, and time on the removal efficiency was studied in a batch mode. Favorable and spontaneous processes with high adsorption capacities e.g. 116.8 mg g−1 for MG, 86.8 mg g−1 for T, and 68.6 mg g−1 for MR indicate the significant adsorptive potential of b-LMS. Results from diffusional and single mass transfer resistance studies indicate that pore diffusion is a rate-limiting step. Theoretical calculations confirmed a higher affinity of b-LMS to cationic dye MG compared with an anionic and neutral one, i.e. T and MR, respectively. The data fitting from a flow system, using semi-empirical equations and Pore Surface Diffusion Modelling (PSDM) provided breakthrough point determination. The results from the desorption and competitive adsorption study proved the exceptional performance of b-LMS. Moreover, sulfation of b-LMS, i.e.production of b-LMS-OSO3H, introduced high-affinity sulfate groups with respect to cationic dye and cations. Developed methodology implements the principle of sustainable development and offers concept whose results contribute to the minimization of environmental pollution.",
publisher = "Academic Press",
journal = "Journal of Environmental Management",
title = "Lignin based microspheres for effective dyes removal: Design, synthesis and adsorption mechanism supported with theoretical study",
volume = "326",
pages = "116838",
doi = "10.1016/j.jenvman.2022.116838"
}

Rabab, S., Veličković, Z., Milošević, M., Pavlović, V. P., Cvijetić, I., Sofrenić, I. V., Gržetić, J. D.,& Marinković, A.. (2023). Lignin based microspheres for effective dyes removal: Design, synthesis and adsorption mechanism supported with theoretical study. in Journal of Environmental Management
Academic Press., 326, 116838.
https://doi.org/10.1016/j.jenvman.2022.116838

Rabab S, Veličković Z, Milošević M, Pavlović VP, Cvijetić I, Sofrenić IV, Gržetić JD, Marinković A. Lignin based microspheres for effective dyes removal: Design, synthesis and adsorption mechanism supported with theoretical study. in Journal of Environmental Management. 2023;326:116838.
doi:10.1016/j.jenvman.2022.116838 .

Rabab, Salih, Veličković, Zlate, Milošević, Milena, Pavlović, Vera P., Cvijetić, Ilija, Sofrenić, Ivana V., Gržetić, Jelena D., Marinković, Aleksandar, "Lignin based microspheres for effective dyes removal: Design, synthesis and adsorption mechanism supported with theoretical study" in Journal of Environmental Management, 326 (2023):116838,
https://doi.org/10.1016/j.jenvman.2022.116838 . .

TY  - JOUR
AU  - Popovic, Ana L.
AU  - Rusmirovic, Jelena D.
AU  - Veličković, Zlate
AU  - Kovacevic, Tihomir
AU  - Jovanovic, Aleksandar
AU  - Cvijetić, Ilija
AU  - Marinkovic, Aleksandar D.
PY  - 2021
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/4284
AB  - In-depth kinetic and column adsorption study for diclofenac, DCF, heavy-metal and oxyanions adsorption on highly effective amino-functionalized lignin-based microsphere adsorbent (A-LMS) is examined. The A-LMS was synthesized via inverse suspension copolymerization of industrial kraft lignin with the amino containing grafting-agent (polyethylene imine), and an epoxy chloropropane cross-linker. The batch adsorption results indicated process spontaneity and feasibility of a high removal capacity: DCF(151.13)>>Cd2+(74.84)>Cr(VI)(54.20)>As(V)(53.12)>Ni2+(49.42 mg g−1). The quantum chemical calculated interaction energies reveal stabilization of the A-LMS/DCF complex through the electrostatics and van der Waals interactions. The results from the pseudo-second order and Weber-Morris fitting indicate a fast removal rate; thus, column tests were undertaken. The single resistance mass transfer model, i.e. the mass transfer (kfa) and diffusion coefficient (Deff), shows pore diffusional transport as a rate limiting step. The fitting of the fixed bed column data with empirical models demonstrates the influences of flow rate and adsorbate inlet concentration on the breakthrough behavior. Pore surface diffusion modeling (PSDM) expresses mass transport under applied hydraulic loading rates, calculated breakthrough point adsorption capacities: Cd2+(58.1)>Cr(VI)(54.1)>As(V)(50.9)>>Ni2+(42.9 mg g−1)), without performing the experimentation on a full pilot-scale level, further confirms the high applicability of the A-LMS bio-based adsorbent.
PB  - Elsevier
T2  - Journal of Industrial and Engineering Chemistry
T1  - Kinetics and column adsorption study of diclofenac and heavy-metal ions removal by amino-functionalized lignin microspheres
VL  - 93
SP  - 302
EP  - 314
DO  - 10.1016/j.jiec.2020.10.006
ER  - 

@article{
author = "Popovic, Ana L. and Rusmirovic, Jelena D. and Veličković, Zlate and Kovacevic, Tihomir and Jovanovic, Aleksandar and Cvijetić, Ilija and Marinkovic, Aleksandar D.",
year = "2021",
abstract = "In-depth kinetic and column adsorption study for diclofenac, DCF, heavy-metal and oxyanions adsorption on highly effective amino-functionalized lignin-based microsphere adsorbent (A-LMS) is examined. The A-LMS was synthesized via inverse suspension copolymerization of industrial kraft lignin with the amino containing grafting-agent (polyethylene imine), and an epoxy chloropropane cross-linker. The batch adsorption results indicated process spontaneity and feasibility of a high removal capacity: DCF(151.13)>>Cd2+(74.84)>Cr(VI)(54.20)>As(V)(53.12)>Ni2+(49.42 mg g−1). The quantum chemical calculated interaction energies reveal stabilization of the A-LMS/DCF complex through the electrostatics and van der Waals interactions. The results from the pseudo-second order and Weber-Morris fitting indicate a fast removal rate; thus, column tests were undertaken. The single resistance mass transfer model, i.e. the mass transfer (kfa) and diffusion coefficient (Deff), shows pore diffusional transport as a rate limiting step. The fitting of the fixed bed column data with empirical models demonstrates the influences of flow rate and adsorbate inlet concentration on the breakthrough behavior. Pore surface diffusion modeling (PSDM) expresses mass transport under applied hydraulic loading rates, calculated breakthrough point adsorption capacities: Cd2+(58.1)>Cr(VI)(54.1)>As(V)(50.9)>>Ni2+(42.9 mg g−1)), without performing the experimentation on a full pilot-scale level, further confirms the high applicability of the A-LMS bio-based adsorbent.",
publisher = "Elsevier",
journal = "Journal of Industrial and Engineering Chemistry",
title = "Kinetics and column adsorption study of diclofenac and heavy-metal ions removal by amino-functionalized lignin microspheres",
volume = "93",
pages = "302-314",
doi = "10.1016/j.jiec.2020.10.006"
}

Popovic, A. L., Rusmirovic, J. D., Veličković, Z., Kovacevic, T., Jovanovic, A., Cvijetić, I.,& Marinkovic, A. D.. (2021). Kinetics and column adsorption study of diclofenac and heavy-metal ions removal by amino-functionalized lignin microspheres. in Journal of Industrial and Engineering Chemistry
Elsevier., 93, 302-314.
https://doi.org/10.1016/j.jiec.2020.10.006

Popovic AL, Rusmirovic JD, Veličković Z, Kovacevic T, Jovanovic A, Cvijetić I, Marinkovic AD. Kinetics and column adsorption study of diclofenac and heavy-metal ions removal by amino-functionalized lignin microspheres. in Journal of Industrial and Engineering Chemistry. 2021;93:302-314.
doi:10.1016/j.jiec.2020.10.006 .

Popovic, Ana L., Rusmirovic, Jelena D., Veličković, Zlate, Kovacevic, Tihomir, Jovanovic, Aleksandar, Cvijetić, Ilija, Marinkovic, Aleksandar D., "Kinetics and column adsorption study of diclofenac and heavy-metal ions removal by amino-functionalized lignin microspheres" in Journal of Industrial and Engineering Chemistry, 93 (2021):302-314,
https://doi.org/10.1016/j.jiec.2020.10.006 . .

TY  - JOUR
AU  - Perendija, Jovana
AU  - Veličković, Zlate
AU  - Cvijetić, Ilija
AU  - Rušmirović, Jelena D.
AU  - Ugrinović, Vukašin
AU  - Marinković, Aleksandar
AU  - Onjia, Antonije E.
PY  - 2020
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/4204
AB  - An optimized method is presented to make magnetite (MG) modified cellulose membrane (Cell-MG) from 3-aminopropyltriethoxysilane and diethylenetriaminepentaacetic acid dianhydride functionalized waste cell fibers; (Cell-NH2 and Cell-DTPA), and amino-modified diatomite. Functionalized Cell-NH2, Cell-DTPA fibers, and diatomite were structurally and morphologically characterized using FT-IR, Raman, and FE-SEM analysis. Amino and carboxyl group content was determined via standard volumetric methods. Response surface method was applied to rationalize the number of experiments related to Cell-MG synthesis and heavy metal ions column adsorption experiments. The effects of pH, contact time, temperature, and initial concentration of pollutants on adsorption and kinetics were studied in a batch, while initial concentration and flow rate were studied in a flow system. The calculated capacities of 88.2, 100.7, 95.8 and 78.2 mg g−1 for Ni2+, Pb2+, Cr(VI) and As(V) ions, respectively, were obtained from Langmuir model fitting. Intra-particle diffusion as a rate-limiting step was evaluated from pseudo-second-order and Weber–Morris model fitting. Thermodynamic parameters indicated spontaneous and low endothermic processes. The results from reusability study, wastewater purification and fixed-bed column study proved the high applicability of Cell-MG. Additionally, high removal capacity of four dyes together with density functional theory and molecular interaction fields, help in the establishment of relation between the adsorption performances and contribution of non-specific and specific interactions at adsorbate/adsorbent interface.
PB  - Springer
T2  - Cellulose
T1  - Batch and column adsorption of cations, oxyanions and dyes on a magnetite modified cellulose-based membrane
VL  - 27
IS  - 14
SP  - 8215
EP  - 8235
DO  - 10.1007/s10570-020-03352-x
ER  - 

@article{
author = "Perendija, Jovana and Veličković, Zlate and Cvijetić, Ilija and Rušmirović, Jelena D. and Ugrinović, Vukašin and Marinković, Aleksandar and Onjia, Antonije E.",
year = "2020",
abstract = "An optimized method is presented to make magnetite (MG) modified cellulose membrane (Cell-MG) from 3-aminopropyltriethoxysilane and diethylenetriaminepentaacetic acid dianhydride functionalized waste cell fibers; (Cell-NH2 and Cell-DTPA), and amino-modified diatomite. Functionalized Cell-NH2, Cell-DTPA fibers, and diatomite were structurally and morphologically characterized using FT-IR, Raman, and FE-SEM analysis. Amino and carboxyl group content was determined via standard volumetric methods. Response surface method was applied to rationalize the number of experiments related to Cell-MG synthesis and heavy metal ions column adsorption experiments. The effects of pH, contact time, temperature, and initial concentration of pollutants on adsorption and kinetics were studied in a batch, while initial concentration and flow rate were studied in a flow system. The calculated capacities of 88.2, 100.7, 95.8 and 78.2 mg g−1 for Ni2+, Pb2+, Cr(VI) and As(V) ions, respectively, were obtained from Langmuir model fitting. Intra-particle diffusion as a rate-limiting step was evaluated from pseudo-second-order and Weber–Morris model fitting. Thermodynamic parameters indicated spontaneous and low endothermic processes. The results from reusability study, wastewater purification and fixed-bed column study proved the high applicability of Cell-MG. Additionally, high removal capacity of four dyes together with density functional theory and molecular interaction fields, help in the establishment of relation between the adsorption performances and contribution of non-specific and specific interactions at adsorbate/adsorbent interface.",
publisher = "Springer",
journal = "Cellulose",
title = "Batch and column adsorption of cations, oxyanions and dyes on a magnetite modified cellulose-based membrane",
volume = "27",
number = "14",
pages = "8215-8235",
doi = "10.1007/s10570-020-03352-x"
}

Perendija, J., Veličković, Z., Cvijetić, I., Rušmirović, J. D., Ugrinović, V., Marinković, A.,& Onjia, A. E.. (2020). Batch and column adsorption of cations, oxyanions and dyes on a magnetite modified cellulose-based membrane. in Cellulose
Springer., 27(14), 8215-8235.
https://doi.org/10.1007/s10570-020-03352-x

Perendija J, Veličković Z, Cvijetić I, Rušmirović JD, Ugrinović V, Marinković A, Onjia AE. Batch and column adsorption of cations, oxyanions and dyes on a magnetite modified cellulose-based membrane. in Cellulose. 2020;27(14):8215-8235.
doi:10.1007/s10570-020-03352-x .

Perendija, Jovana, Veličković, Zlate, Cvijetić, Ilija, Rušmirović, Jelena D., Ugrinović, Vukašin, Marinković, Aleksandar, Onjia, Antonije E., "Batch and column adsorption of cations, oxyanions and dyes on a magnetite modified cellulose-based membrane" in Cellulose, 27, no. 14 (2020):8215-8235,
https://doi.org/10.1007/s10570-020-03352-x . .

TY  - DATA
AU  - Perendija, Jovana
AU  - Veličković, Zlate
AU  - Cvijetić, Ilija
AU  - Rušmirović, Jelena D.
AU  - Ugrinović, Vukašin
AU  - Marinković, Aleksandar
AU  - Onjia, Antonije E.
PY  - 2020
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/4205
PB  - Springer
T2  - Cellulose
T1  - Supplementary data for the article: Perendija, J.; Veličković, Z. S.; Cvijetić, I.; Rusmirović, J. D.; Ugrinović, V.; Marinković, A. D.; Onjia, A. Batch and Column Adsorption of Cations, Oxyanions and Dyes on a Magnetite Modified Cellulose-Based Membrane. Cellulose 2020, 27 (14), 8215–8235. https://doi.org/10.1007/s10570-020-03352-x
UR  - https://hdl.handle.net/21.15107/rcub_cherry_4205
ER  - 

@misc{
author = "Perendija, Jovana and Veličković, Zlate and Cvijetić, Ilija and Rušmirović, Jelena D. and Ugrinović, Vukašin and Marinković, Aleksandar and Onjia, Antonije E.",
year = "2020",
publisher = "Springer",
journal = "Cellulose",
title = "Supplementary data for the article: Perendija, J.; Veličković, Z. S.; Cvijetić, I.; Rusmirović, J. D.; Ugrinović, V.; Marinković, A. D.; Onjia, A. Batch and Column Adsorption of Cations, Oxyanions and Dyes on a Magnetite Modified Cellulose-Based Membrane. Cellulose 2020, 27 (14), 8215–8235. https://doi.org/10.1007/s10570-020-03352-x",
url = "https://hdl.handle.net/21.15107/rcub_cherry_4205"
}

Perendija, J., Veličković, Z., Cvijetić, I., Rušmirović, J. D., Ugrinović, V., Marinković, A.,& Onjia, A. E.. (2020). Supplementary data for the article: Perendija, J.; Veličković, Z. S.; Cvijetić, I.; Rusmirović, J. D.; Ugrinović, V.; Marinković, A. D.; Onjia, A. Batch and Column Adsorption of Cations, Oxyanions and Dyes on a Magnetite Modified Cellulose-Based Membrane. Cellulose 2020, 27 (14), 8215–8235. https://doi.org/10.1007/s10570-020-03352-x. in Cellulose
Springer..
https://hdl.handle.net/21.15107/rcub_cherry_4205

Perendija J, Veličković Z, Cvijetić I, Rušmirović JD, Ugrinović V, Marinković A, Onjia AE. Supplementary data for the article: Perendija, J.; Veličković, Z. S.; Cvijetić, I.; Rusmirović, J. D.; Ugrinović, V.; Marinković, A. D.; Onjia, A. Batch and Column Adsorption of Cations, Oxyanions and Dyes on a Magnetite Modified Cellulose-Based Membrane. Cellulose 2020, 27 (14), 8215–8235. https://doi.org/10.1007/s10570-020-03352-x. in Cellulose. 2020;.
https://hdl.handle.net/21.15107/rcub_cherry_4205 .

Perendija, Jovana, Veličković, Zlate, Cvijetić, Ilija, Rušmirović, Jelena D., Ugrinović, Vukašin, Marinković, Aleksandar, Onjia, Antonije E., "Supplementary data for the article: Perendija, J.; Veličković, Z. S.; Cvijetić, I.; Rusmirović, J. D.; Ugrinović, V.; Marinković, A. D.; Onjia, A. Batch and Column Adsorption of Cations, Oxyanions and Dyes on a Magnetite Modified Cellulose-Based Membrane. Cellulose 2020, 27 (14), 8215–8235. https://doi.org/10.1007/s10570-020-03352-x" in Cellulose (2020),
https://hdl.handle.net/21.15107/rcub_cherry_4205 .