Žunić, Marija J.


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http://vinar.vin.bg.ac.rs/APP/faces/author.xhtml?author_id=40dd4607-5c9a-4c07-a338-533433d974ba&item_offset=0&project_offset=0&sort_by=dc.date.issued

Authority Key	Name Variants
40dd4607-5c9a-4c07-a338-533433d974ba	Žunić, Marija J. (2)

Projects

Advanced technologies for monitoring and environmental protection from chemical pollutants and radiation burden	Nanostructured Functional and Composite Materials in Catalytic and Sorption Processes
Oxide-based environmentally-friendly porous materials for genotoxic substances removal	Research and verification of the multidisciplinary forensic methods in

Author's Bibliography

Glycidyl methacrylate macroporous copolymer grafted with diethylene triamine as sorbent for Reactive Black 5

Sandić, Zvjezdana; Žunić, Marija J.; Maksin, Danijela D.; Milutinović-Nikolić, Aleksandra D.; Popović, Aleksandar R.; Jovanović, Dušan M.; Nastasović, Aleksandra B.

(2014)

TY - JOUR
AU - Sandić, Zvjezdana
AU - Žunić, Marija J.
AU - Maksin, Danijela D.
AU - Milutinović-Nikolić, Aleksandra D.
AU - Popović, Aleksandar R.
AU - Jovanović, Dušan M.
AU - Nastasović, Aleksandra B.
PY - 2014
UR - https://vinar.vin.bg.ac.rs/handle/123456789/369
AB - In this paper, macroporous glycidyl methacrylate and ethylene glycol dimethacrylate copolymer functionalized with diethylene triamine (PGME-deta), was evaluated as Reactive Black 5 (RB5) sorbent. Batch RB5 removal from aqueous solution by PGME-deta was investigated by varying pH, contact time, sorbent dosage, initial dye concentration and temperature. The sorption is pH sensitive having maximum at pH 2 (dye removal of 85%), decreasing with the increase of pH (dye removal of 24% at pH 11) after 60 min. Sorption kinetics was fitted to chemical-reaction and particle-diffusion models (pseudo-first-, pseudo-second-order, intraparticle diffusion and Mckay models). The pseudo-second-order kinetic model accurately predicted the RB5 amount sorbed under all investigated operating conditions, while the intraparticle diffusion was the dominant rate-limiting mechanism. The diffusion mechanism was more prevalent with the decrease in temperature and the increase in concentration. The isotherm data was best fitted with the Langmuir model, indicating homogeneous distribution of active sites on PGME-deta and monolayer sorption, with the maximum sorption capacity of 353 mg g(-1). The calculated sorption rates improved with increasing temperature and an activation energy close to 40 kj mol(-1) was determined, suggesting that chemisorption was also rate-controlling.
T2 - Hemijska industrija
T1 - Glycidyl methacrylate macroporous copolymer grafted with diethylene triamine as sorbent for Reactive Black 5
VL - 68
IS - 6
SP - 685
EP - 699
DO - 10.2298/HEMIND140127023S
ER -

@article{
author = "Sandić, Zvjezdana and Žunić, Marija J. and Maksin, Danijela D. and Milutinović-Nikolić, Aleksandra D. and Popović, Aleksandar R. and Jovanović, Dušan M. and Nastasović, Aleksandra B.",
year = "2014",
abstract = "In this paper, macroporous glycidyl methacrylate and ethylene glycol dimethacrylate copolymer functionalized with diethylene triamine (PGME-deta), was evaluated as Reactive Black 5 (RB5) sorbent. Batch RB5 removal from aqueous solution by PGME-deta was investigated by varying pH, contact time, sorbent dosage, initial dye concentration and temperature. The sorption is pH sensitive having maximum at pH 2 (dye removal of 85%), decreasing with the increase of pH (dye removal of 24% at pH 11) after 60 min. Sorption kinetics was fitted to chemical-reaction and particle-diffusion models (pseudo-first-, pseudo-second-order, intraparticle diffusion and Mckay models). The pseudo-second-order kinetic model accurately predicted the RB5 amount sorbed under all investigated operating conditions, while the intraparticle diffusion was the dominant rate-limiting mechanism. The diffusion mechanism was more prevalent with the decrease in temperature and the increase in concentration. The isotherm data was best fitted with the Langmuir model, indicating homogeneous distribution of active sites on PGME-deta and monolayer sorption, with the maximum sorption capacity of 353 mg g(-1). The calculated sorption rates improved with increasing temperature and an activation energy close to 40 kj mol(-1) was determined, suggesting that chemisorption was also rate-controlling.",
journal = "Hemijska industrija",
title = "Glycidyl methacrylate macroporous copolymer grafted with diethylene triamine as sorbent for Reactive Black 5",
volume = "68",
number = "6",
pages = "685-699",
doi = "10.2298/HEMIND140127023S"
}

Sandić, Z., Žunić, M. J., Maksin, D. D., Milutinović-Nikolić, A. D., Popović, A. R., Jovanović, D. M.,& Nastasović, A. B.. (2014). Glycidyl methacrylate macroporous copolymer grafted with diethylene triamine as sorbent for Reactive Black 5. in Hemijska industrija, 68(6), 685-699.
https://doi.org/10.2298/HEMIND140127023S

Sandić Z, Žunić MJ, Maksin DD, Milutinović-Nikolić AD, Popović AR, Jovanović DM, Nastasović AB. Glycidyl methacrylate macroporous copolymer grafted with diethylene triamine as sorbent for Reactive Black 5. in Hemijska industrija. 2014;68(6):685-699.
doi:10.2298/HEMIND140127023S .

Sandić, Zvjezdana, Žunić, Marija J., Maksin, Danijela D., Milutinović-Nikolić, Aleksandra D., Popović, Aleksandar R., Jovanović, Dušan M., Nastasović, Aleksandra B., "Glycidyl methacrylate macroporous copolymer grafted with diethylene triamine as sorbent for Reactive Black 5" in Hemijska industrija, 68, no. 6 (2014):685-699,
https://doi.org/10.2298/HEMIND140127023S . .

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Modeling of kinetics of pertechnetate removal by amino-functionalized glycidyl methacrylate copolymer

Maksin, Danijela D.; Hercigonja, Radmila V.; Lazarević, Magdalena; Žunić, Marija J.; Nastasović, Aleksandra B.

(2012)

TY  - JOUR
AU  - Maksin, Danijela D.
AU  - Hercigonja, Radmila V.
AU  - Lazarević, Magdalena
AU  - Žunić, Marija J.
AU  - Nastasović, Aleksandra B.
PY  - 2012
UR  - https://vinar.vin.bg.ac.rs/handle/123456789/4596
AB  - Technetium-99 comprises a significant health risk, since edible plants can bioaccumulate and convert it to more lipophilic species that cannot be excreted through urine. Batch kinetics of pertechnetate removal from aqueous solutions by two samples of crosslinked poly(glycidyl methacrylate-co-ethylene glycol dimethacrylate) functionalized with diethylene triamine (PGME-deta) was investigated at the optimum pH value of 3.0, and the initial solution activity of 325 MBq dm(-3). PGME-deta was characterized by elemental analysis, mercury intrusion porosimetry, and scanning electron microscopy. Five kinetic models (pseudo-first, pseudo-second order, Elovich, Bangham, and intraparticle diffusion) were used to determine the best-fit equation for pertechnetate sorption. After 24 h, PGME-deta samples sorbed more than 98% of pertechnetate present, with maximum sorption capacity of 25.5 MBq g(-1), showing good potential for remediation of slightly contaminated groundwater.
T2  - Polymer Bulletin
T1  - Modeling of kinetics of pertechnetate removal by amino-functionalized glycidyl methacrylate copolymer
VL  - 68
IS  - 2
SP  - 507
EP  - 528
DO  - 10.1007/s00289-011-0634-5
ER  -

@article{
author = "Maksin, Danijela D. and Hercigonja, Radmila V. and Lazarević, Magdalena and Žunić, Marija J. and Nastasović, Aleksandra B.",
year = "2012",
abstract = "Technetium-99 comprises a significant health risk, since edible plants can bioaccumulate and convert it to more lipophilic species that cannot be excreted through urine. Batch kinetics of pertechnetate removal from aqueous solutions by two samples of crosslinked poly(glycidyl methacrylate-co-ethylene glycol dimethacrylate) functionalized with diethylene triamine (PGME-deta) was investigated at the optimum pH value of 3.0, and the initial solution activity of 325 MBq dm(-3). PGME-deta was characterized by elemental analysis, mercury intrusion porosimetry, and scanning electron microscopy. Five kinetic models (pseudo-first, pseudo-second order, Elovich, Bangham, and intraparticle diffusion) were used to determine the best-fit equation for pertechnetate sorption. After 24 h, PGME-deta samples sorbed more than 98% of pertechnetate present, with maximum sorption capacity of 25.5 MBq g(-1), showing good potential for remediation of slightly contaminated groundwater.",
journal = "Polymer Bulletin",
title = "Modeling of kinetics of pertechnetate removal by amino-functionalized glycidyl methacrylate copolymer",
volume = "68",
number = "2",
pages = "507-528",
doi = "10.1007/s00289-011-0634-5"
}

Maksin, D. D., Hercigonja, R. V., Lazarević, M., Žunić, M. J.,& Nastasović, A. B.. (2012). Modeling of kinetics of pertechnetate removal by amino-functionalized glycidyl methacrylate copolymer. in Polymer Bulletin, 68(2), 507-528.
https://doi.org/10.1007/s00289-011-0634-5

Maksin DD, Hercigonja RV, Lazarević M, Žunić MJ, Nastasović AB. Modeling of kinetics of pertechnetate removal by amino-functionalized glycidyl methacrylate copolymer. in Polymer Bulletin. 2012;68(2):507-528.
doi:10.1007/s00289-011-0634-5 .

Maksin, Danijela D., Hercigonja, Radmila V., Lazarević, Magdalena, Žunić, Marija J., Nastasović, Aleksandra B., "Modeling of kinetics of pertechnetate removal by amino-functionalized glycidyl methacrylate copolymer" in Polymer Bulletin, 68, no. 2 (2012):507-528,
https://doi.org/10.1007/s00289-011-0634-5 . .

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