Modeling and Numerical Simulations of Complex Many-Body Systems

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Modeling and Numerical Simulations of Complex Many-Body Systems (en)
Моделирање и нумеричке симулације сложених вишечестичних система (sr)
Modeliranje i numeričke simulacije složenih višečestičnih sistema (sr_RS)
Authors

Publications

New Theoretical Insight into Fluorination and Fluorine-Fluorine Interactions as a Driving Force in Crystal Structures

Janjic, Goran V.; Jelić, Stefan; Trisović, Nemanja; Popović, Dragan M.; Đorđević, Ivana S.; Milcic, Milos. K.

(Amer Chemical Soc, Washington, 2020) 

TY  - JOUR
AU  - Janjic, Goran V.
AU  - Jelić, Stefan
AU  - Trisović, Nemanja
AU  - Popović, Dragan M.
AU  - Đorđević, Ivana S.
AU  - Milcic, Milos. K.
PY  - 2020
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/1357
AB  - Fluorination of compounds causes an increase in the proton-donating ability and a decrease in the proton-accepting capacity of groups in their vicinity. The formation of F center dot center dot center dot F interactions is followed by the shift of the electron density in the area of F center dot center dot center dot F contact, which creates a new region with a larger surface area, a higher negative potential, and, hence, a more pronounced accepting ability. The new region also has a greater ability to form multiple (simultaneous) interactions with species from the environment, thus compensating for the reduction of the accepting capacity of the groups in the vicinity. This phenomenon explains not only the abundance of F center dot center dot center dot F interactions in crystal structures, but also a large number of structures with F center dot center dot center dot O interactions. Only C-H center dot center dot center dot F interactions are more numerous than F center dot center dot center dot F interactions in crystal structures, which indicates a high affinity of fluorinated compounds for nonpolar groups.
PB  - Amer Chemical Soc, Washington
T2  - Crystal Growth & Design
T1  - New Theoretical Insight into Fluorination and Fluorine-Fluorine Interactions as a Driving Force in Crystal Structures
EP  - 2951
IS  - 5
SP  - 2943
VL  - 20
DO  - 10.1021/acs.cgd.9b01565
ER  - 
@article{
author = "Janjic, Goran V. and Jelić, Stefan and Trisović, Nemanja and Popović, Dragan M. and Đorđević, Ivana S. and Milcic, Milos. K.",
year = "2020",
abstract = "Fluorination of compounds causes an increase in the proton-donating ability and a decrease in the proton-accepting capacity of groups in their vicinity. The formation of F center dot center dot center dot F interactions is followed by the shift of the electron density in the area of F center dot center dot center dot F contact, which creates a new region with a larger surface area, a higher negative potential, and, hence, a more pronounced accepting ability. The new region also has a greater ability to form multiple (simultaneous) interactions with species from the environment, thus compensating for the reduction of the accepting capacity of the groups in the vicinity. This phenomenon explains not only the abundance of F center dot center dot center dot F interactions in crystal structures, but also a large number of structures with F center dot center dot center dot O interactions. Only C-H center dot center dot center dot F interactions are more numerous than F center dot center dot center dot F interactions in crystal structures, which indicates a high affinity of fluorinated compounds for nonpolar groups.",
publisher = "Amer Chemical Soc, Washington",
journal = "Crystal Growth & Design",
title = "New Theoretical Insight into Fluorination and Fluorine-Fluorine Interactions as a Driving Force in Crystal Structures",
pages = "2951-2943",
number = "5",
volume = "20",
doi = "10.1021/acs.cgd.9b01565"
}
Janjic, G. V., Jelić, S., Trisović, N., Popović, D. M., Đorđević, I. S.,& Milcic, Milos. K.. (2020). New Theoretical Insight into Fluorination and Fluorine-Fluorine Interactions as a Driving Force in Crystal Structures. in Crystal Growth & Design
Amer Chemical Soc, Washington., 20(5), 2943-2951.
https://doi.org/10.1021/acs.cgd.9b01565
Janjic GV, Jelić S, Trisović N, Popović DM, Đorđević IS, Milcic MK. New Theoretical Insight into Fluorination and Fluorine-Fluorine Interactions as a Driving Force in Crystal Structures. in Crystal Growth & Design. 2020;20(5):2943-2951.
doi:10.1021/acs.cgd.9b01565 .
Janjic, Goran V., Jelić, Stefan, Trisović, Nemanja, Popović, Dragan M., Đorđević, Ivana S., Milcic, Milos. K., "New Theoretical Insight into Fluorination and Fluorine-Fluorine Interactions as a Driving Force in Crystal Structures" in Crystal Growth & Design, 20, no. 5 (2020):2943-2951,
https://doi.org/10.1021/acs.cgd.9b01565 . .
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Solvatochromism of symmetrical 2,6-distyrylpyridines. An experimental and theoretical study

Marković, Jelena M.; Trisović, Nemanja; Mutavdžić, Dragosav; Radotić, Ksenija; Juranic, Ivan O.; Drakulic, Branko J.; Marinković, Aleksandar

(Pergamon-Elsevier Science Ltd, Oxford, 2015) 

TY  - JOUR
AU  - Marković, Jelena M.
AU  - Trisović, Nemanja
AU  - Mutavdžić, Dragosav
AU  - Radotić, Ksenija
AU  - Juranic, Ivan O.
AU  - Drakulic, Branko J.
AU  - Marinković, Aleksandar
PY  - 2015
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/885
AB  - Seven symmetrical 2,6-distyrylpyridines, phenyl-substituted with hydrogen-bond donors, hydrogen-bond acceptors, halogens and hydrophobic moieties were synthesized and their spectroscopic characterization was done. Solvent effects on the absorption and fluorescence spectra were analyzed and quantified using the Kamlet-Taft and Catalan approach. The obtained results were rationalized by comparison of electrostatic potentials of the molecules in the ground and in excited state and by comparison of the frontier molecular orbitals (HOMO and LUMO), derived from quantum-mechanical calculations (HE, DFT, MP2). Analysis of the results revealed an important influence of non-specific (dispersive) interactions on the solvatochromic behavior of the compounds. 1D and 2D NMR data, in silica obtained conformational assembly of the compound, and the NMR analysis of molecular flexibility in solution (NAMFIS), were used to estimate population of conformers and to deconvolute the UV-Vis spectrum of representative derivative; inferring that the conformational assembly is more complex than was assumed in so far published literature data for this class of compounds. Along with this, the emission spectra of the representative compounds were decomposed by the Multivariate Curve Resolution analysis.
PB  - Pergamon-Elsevier Science Ltd, Oxford
T2  - Spectrochimica Acta Part A-Molecular and Biomolecular Spectroscopy
T1  - Solvatochromism of symmetrical 2,6-distyrylpyridines. An experimental and theoretical study
EP  - 446
SP  - 435
VL  - 135
DO  - 10.1016/j.saa.2014.07.023
ER  - 
@article{
author = "Marković, Jelena M. and Trisović, Nemanja and Mutavdžić, Dragosav and Radotić, Ksenija and Juranic, Ivan O. and Drakulic, Branko J. and Marinković, Aleksandar",
year = "2015",
abstract = "Seven symmetrical 2,6-distyrylpyridines, phenyl-substituted with hydrogen-bond donors, hydrogen-bond acceptors, halogens and hydrophobic moieties were synthesized and their spectroscopic characterization was done. Solvent effects on the absorption and fluorescence spectra were analyzed and quantified using the Kamlet-Taft and Catalan approach. The obtained results were rationalized by comparison of electrostatic potentials of the molecules in the ground and in excited state and by comparison of the frontier molecular orbitals (HOMO and LUMO), derived from quantum-mechanical calculations (HE, DFT, MP2). Analysis of the results revealed an important influence of non-specific (dispersive) interactions on the solvatochromic behavior of the compounds. 1D and 2D NMR data, in silica obtained conformational assembly of the compound, and the NMR analysis of molecular flexibility in solution (NAMFIS), were used to estimate population of conformers and to deconvolute the UV-Vis spectrum of representative derivative; inferring that the conformational assembly is more complex than was assumed in so far published literature data for this class of compounds. Along with this, the emission spectra of the representative compounds were decomposed by the Multivariate Curve Resolution analysis.",
publisher = "Pergamon-Elsevier Science Ltd, Oxford",
journal = "Spectrochimica Acta Part A-Molecular and Biomolecular Spectroscopy",
title = "Solvatochromism of symmetrical 2,6-distyrylpyridines. An experimental and theoretical study",
pages = "446-435",
volume = "135",
doi = "10.1016/j.saa.2014.07.023"
}
Marković, J. M., Trisović, N., Mutavdžić, D., Radotić, K., Juranic, I. O., Drakulic, B. J.,& Marinković, A.. (2015). Solvatochromism of symmetrical 2,6-distyrylpyridines. An experimental and theoretical study. in Spectrochimica Acta Part A-Molecular and Biomolecular Spectroscopy
Pergamon-Elsevier Science Ltd, Oxford., 135, 435-446.
https://doi.org/10.1016/j.saa.2014.07.023
Marković JM, Trisović N, Mutavdžić D, Radotić K, Juranic IO, Drakulic BJ, Marinković A. Solvatochromism of symmetrical 2,6-distyrylpyridines. An experimental and theoretical study. in Spectrochimica Acta Part A-Molecular and Biomolecular Spectroscopy. 2015;135:435-446.
doi:10.1016/j.saa.2014.07.023 .
Marković, Jelena M., Trisović, Nemanja, Mutavdžić, Dragosav, Radotić, Ksenija, Juranic, Ivan O., Drakulic, Branko J., Marinković, Aleksandar, "Solvatochromism of symmetrical 2,6-distyrylpyridines. An experimental and theoretical study" in Spectrochimica Acta Part A-Molecular and Biomolecular Spectroscopy, 135 (2015):435-446,
https://doi.org/10.1016/j.saa.2014.07.023 . .
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