Marković, Bojana

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  • Marković, Bojana (1)
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Theoretical prediction of magnetic aminofunctionalized polymer sorbent performance using molecular modeling methods

Suručić, Ljiljana T.; Nastasović, Aleksandra; Marković, Bojana; Tadić, Tamara; Onjia, Antonije; Janjić, Goran

(Banja Luka : University in Banjaluka, Faculty of Technology, 2022) 

TY  - CONF
AU  - Suručić, Ljiljana T.
AU  - Nastasović, Aleksandra
AU  - Marković, Bojana
AU  - Tadić, Tamara
AU  - Onjia, Antonije
AU  - Janjić, Goran
PY  - 2022
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/7083
AB  - Improving the affinity and selectivity of polymeric materials for sorbing ionic species, particularly
heavy metals that pose a high environmental risk, is crucial from an environmental standpoint.
Research on the mechanism of sorption can aid in selecting the optimal sorbent for a given
application. Sorption occurs as a result of various interactions. Sorption includes diffusion of ions
through solution (typically the quickest), diffusion of ions through the boundary layer surrounding
the sorbent surface, diffusion through the porous structure of the sorbent (intra-particle diffusion),
and binding to active sites on sorbent surfaces. Kinetic and equilibrium models explain the sorption
mechanism but not the nature of interactions, which is essential for predicting the selectivity and
efficiency of the sorbent based on particular ionic species. As a result, we were compelled to
approach the molecular level. Active sites on the surface of the magnetic aminofunctionalized
polymer, which are amino functional groups, are used to bind ions to the magnetic nanocomposite.
The sorption process can be viewed as the sum of ion-ligand unit interactions. Unit complex
formation and stability can be studied with statistical analysis and quantum chemical calculations.
The Cambridge database (CSD) improves the crystal structure of complex ion-ligand. Based on
binding energy, DFT (Density Functional Theory) predicts the stability of complex molecules (unit
ion-ligand interactions). To ensure an accurate calculation, it is essential to include all system
parameters, including sorbent structure, ligand properties, ligand charge under specific conditions,
ion forms and charges, and solvatation effects. In the early stages of research, defining the system's
model lets researchers make theoretical predictions about the magnetic aminofunctionalized
polymer sorbent's affinity and selectivity for certain ionic species.
PB  - Banja Luka : University in Banjaluka, Faculty of Technology
C3  - Book of Abstracts / XIV Conference of Chemists, Technologists and Environmentalists of Republic of Srpska, Banja Luka, October 21-22, 2022
T1  - Theoretical prediction of magnetic aminofunctionalized polymer sorbent performance using molecular modeling methods
SP  - 20
UR  - https://hdl.handle.net/21.15107/rcub_technorep_7083
ER  - 
@conference{
author = "Suručić, Ljiljana T. and Nastasović, Aleksandra and Marković, Bojana and Tadić, Tamara and Onjia, Antonije and Janjić, Goran",
year = "2022",
abstract = "Improving the affinity and selectivity of polymeric materials for sorbing ionic species, particularly
heavy metals that pose a high environmental risk, is crucial from an environmental standpoint.
Research on the mechanism of sorption can aid in selecting the optimal sorbent for a given
application. Sorption occurs as a result of various interactions. Sorption includes diffusion of ions
through solution (typically the quickest), diffusion of ions through the boundary layer surrounding
the sorbent surface, diffusion through the porous structure of the sorbent (intra-particle diffusion),
and binding to active sites on sorbent surfaces. Kinetic and equilibrium models explain the sorption
mechanism but not the nature of interactions, which is essential for predicting the selectivity and
efficiency of the sorbent based on particular ionic species. As a result, we were compelled to
approach the molecular level. Active sites on the surface of the magnetic aminofunctionalized
polymer, which are amino functional groups, are used to bind ions to the magnetic nanocomposite.
The sorption process can be viewed as the sum of ion-ligand unit interactions. Unit complex
formation and stability can be studied with statistical analysis and quantum chemical calculations.
The Cambridge database (CSD) improves the crystal structure of complex ion-ligand. Based on
binding energy, DFT (Density Functional Theory) predicts the stability of complex molecules (unit
ion-ligand interactions). To ensure an accurate calculation, it is essential to include all system
parameters, including sorbent structure, ligand properties, ligand charge under specific conditions,
ion forms and charges, and solvatation effects. In the early stages of research, defining the system's
model lets researchers make theoretical predictions about the magnetic aminofunctionalized
polymer sorbent's affinity and selectivity for certain ionic species.",
publisher = "Banja Luka : University in Banjaluka, Faculty of Technology",
journal = "Book of Abstracts / XIV Conference of Chemists, Technologists and Environmentalists of Republic of Srpska, Banja Luka, October 21-22, 2022",
title = "Theoretical prediction of magnetic aminofunctionalized polymer sorbent performance using molecular modeling methods",
pages = "20",
url = "https://hdl.handle.net/21.15107/rcub_technorep_7083"
}
Suručić, L. T., Nastasović, A., Marković, B., Tadić, T., Onjia, A.,& Janjić, G.. (2022). Theoretical prediction of magnetic aminofunctionalized polymer sorbent performance using molecular modeling methods. in Book of Abstracts / XIV Conference of Chemists, Technologists and Environmentalists of Republic of Srpska, Banja Luka, October 21-22, 2022
Banja Luka : University in Banjaluka, Faculty of Technology., 20.
https://hdl.handle.net/21.15107/rcub_technorep_7083
Suručić LT, Nastasović A, Marković B, Tadić T, Onjia A, Janjić G. Theoretical prediction of magnetic aminofunctionalized polymer sorbent performance using molecular modeling methods. in Book of Abstracts / XIV Conference of Chemists, Technologists and Environmentalists of Republic of Srpska, Banja Luka, October 21-22, 2022. 2022;:20.
https://hdl.handle.net/21.15107/rcub_technorep_7083 .
Suručić, Ljiljana T., Nastasović, Aleksandra, Marković, Bojana, Tadić, Tamara, Onjia, Antonije, Janjić, Goran, "Theoretical prediction of magnetic aminofunctionalized polymer sorbent performance using molecular modeling methods" in Book of Abstracts / XIV Conference of Chemists, Technologists and Environmentalists of Republic of Srpska, Banja Luka, October 21-22, 2022 (2022):20,
https://hdl.handle.net/21.15107/rcub_technorep_7083 .