TY  - JOUR
AU  - Milovanović, Milan R.
AU  - Stanković, Ivana M.
AU  - Živković, Jelena
AU  - Ninković, Dragan
AU  - Hall, Michael B.
AU  - Zarić, Snežana
PY  - 2022
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/5326
AB  - All water–water contacts in the crystal structures from the Cambridge Structural
Database with dOO   4.0 A˚ have been found. These contacts were analysed on
the basis of their geometries and interaction energies from CCSD(T)/CBS
calculations. The results show 6729 attractive water–water contacts, of which
4717 are classical hydrogen bonds (dOH   3.0 A˚ and     120 ) with most being
stronger than  3.3 kcal mol 1
. Beyond the region of these hydrogen bonds,
there is a large number of attractive interactions (2062). The majority are
antiparallel dipolar interactions, where the O—H bonds of two water molecules
lying in parallel planes are oriented antiparallel to each other. Developing
geometric criteria for these antiparallel dipoles ( 1,  2   160 , 80       140  and
THOHO > 40 ) yielded 1282 attractive contacts. The interaction energies of these
antiparallel oriented water molecules are up to  4.7 kcal mol 1
, while most of
the contacts have interaction energies in the range  0.9 to  2.1 kcal mol 1
. This
study suggests that the geometric criteria for defining attractive water–water
interactions should be broader than the classical hydrogen-bonding criteria, a
change that may reveal undiscovered and unappreciated interactions controlling
molecular structure and chemistry
PB  - International Union of Crystallography (IUCr)
T2  - IUCrJ
T1  - Water: new aspect of hydrogen bonding in the solid state
VL  - 9
SP  - 639
EP  - 647
DO  - 10.1107/S2052252522006728
ER  - 

@article{
author = "Milovanović, Milan R. and Stanković, Ivana M. and Živković, Jelena and Ninković, Dragan and Hall, Michael B. and Zarić, Snežana",
year = "2022",
abstract = "All water–water contacts in the crystal structures from the Cambridge Structural
Database with dOO   4.0 A˚ have been found. These contacts were analysed on
the basis of their geometries and interaction energies from CCSD(T)/CBS
calculations. The results show 6729 attractive water–water contacts, of which
4717 are classical hydrogen bonds (dOH   3.0 A˚ and     120 ) with most being
stronger than  3.3 kcal mol 1
. Beyond the region of these hydrogen bonds,
there is a large number of attractive interactions (2062). The majority are
antiparallel dipolar interactions, where the O—H bonds of two water molecules
lying in parallel planes are oriented antiparallel to each other. Developing
geometric criteria for these antiparallel dipoles ( 1,  2   160 , 80       140  and
THOHO > 40 ) yielded 1282 attractive contacts. The interaction energies of these
antiparallel oriented water molecules are up to  4.7 kcal mol 1
, while most of
the contacts have interaction energies in the range  0.9 to  2.1 kcal mol 1
. This
study suggests that the geometric criteria for defining attractive water–water
interactions should be broader than the classical hydrogen-bonding criteria, a
change that may reveal undiscovered and unappreciated interactions controlling
molecular structure and chemistry",
publisher = "International Union of Crystallography (IUCr)",
journal = "IUCrJ",
title = "Water: new aspect of hydrogen bonding in the solid state",
volume = "9",
pages = "639-647",
doi = "10.1107/S2052252522006728"
}

Milovanović, M. R., Stanković, I. M., Živković, J., Ninković, D., Hall, M. B.,& Zarić, S.. (2022). Water: new aspect of hydrogen bonding in the solid state. in IUCrJ
International Union of Crystallography (IUCr)., 9, 639-647.
https://doi.org/10.1107/S2052252522006728

Milovanović MR, Stanković IM, Živković J, Ninković D, Hall MB, Zarić S. Water: new aspect of hydrogen bonding in the solid state. in IUCrJ. 2022;9:639-647.
doi:10.1107/S2052252522006728 .

Milovanović, Milan R., Stanković, Ivana M., Živković, Jelena, Ninković, Dragan, Hall, Michael B., Zarić, Snežana, "Water: new aspect of hydrogen bonding in the solid state" in IUCrJ, 9 (2022):639-647,
https://doi.org/10.1107/S2052252522006728 . .

TY  - CONF
AU  - Milovanović, Milan R.
AU  - Živković, Jelena M.
AU  - Ninković, Dragan B.
AU  - Blagojević Filipović, Jelena P.
AU  - Vojislavljević-Vasilev, Dubravka Z.
AU  - Veljković, Ivana S.
AU  - Stanković, Ivana M.
AU  - Malenov, Dušan P.
AU  - Medaković, Vesna
AU  - Veljković, Dušan Ž.
AU  - Zarić, Snežana D.
PY  - 2021
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/5347
AB  - In the recent review it was point out that the crystal structures in the Cambridge Structural Database (CSD), collected, have contributeto various fields of chemical research such as geometries of molecules, noncovalent interactions of molecules, and large assemblies ofmolecules. The CSD also contributed to the study and the design of biologically active molecules and the study of gas storage anddelivery [1].In our group we use analysis of the crystal structures in the CSD to recognize and characterize new types of noncovalent interactionsand to study already known noncovalent interactions. Based on the data from the CSD we can determine existence of the interactions,frequency of the interactions, and preferred geometries of the interactions in the crystal structures. In addition, we perform quantumchemical calculations to evaluate the energies of the interactions. Based on the calculated potential energy surfaces for theinteractions, we can determine the most stable geometries, as well as stability of various geometries. We also can determine theinteraction energies for the preferred geometries in the crystal structures. In the cases where the most preferred geometries in thecrystal structures are not the most stable geometries at the potential energy surface, one can find significant influence of thesupramolecular structures in the crystals.Using this methodology our group recognized stacking interactions of planar metal-chelate rings; stacking interactions with organicaromatic rings and stacking interactions between two chelate rings. The calculated energies indicate strong stacking interactions ofmetal-chelate rings; the stacking of metal-chelate rings is stronger than stacking between two benzene molecules [2]. The data indicateinfluence of the metal and ligand type in the metal chelate ring on the strength of the interactions. Our results also indicate strongstacking interactions of coordinated aromatic rings [3]. Studies of interactions of coordinated water indicate stronger hydrogen bondsand stronger OH/π interactions of coordinated in comparison to noncoordianted water molecule [4,5]. The calculations on OH/Minteractions between metal ion in square-planar complexes and water molecule indicate that these interactions are among the strongesthydrogen bonds in any molecular system [6].The studies on stacking interactions of benzene molecules in the crystal structures in the CSD show preference for interactions at largehorizontal displacements, while high level quantum chemical calculations indicate significantly strong interactions at large offsets; theenergy is 70% of the strongest stacking geometry [7].
PB  - The International Union of Crystallography (IUCr)
C3  - Acta Crystallographica, section A
T1  - Study of noncovalent interactions using crystal structure data in the Cambridge Structural Database
VL  - A77
SP  - C192
DO  - 10.1107/S0108767321094903
ER  - 

@conference{
author = "Milovanović, Milan R. and Živković, Jelena M. and Ninković, Dragan B. and Blagojević Filipović, Jelena P. and Vojislavljević-Vasilev, Dubravka Z. and Veljković, Ivana S. and Stanković, Ivana M. and Malenov, Dušan P. and Medaković, Vesna and Veljković, Dušan Ž. and Zarić, Snežana D.",
year = "2021",
abstract = "In the recent review it was point out that the crystal structures in the Cambridge Structural Database (CSD), collected, have contributeto various fields of chemical research such as geometries of molecules, noncovalent interactions of molecules, and large assemblies ofmolecules. The CSD also contributed to the study and the design of biologically active molecules and the study of gas storage anddelivery [1].In our group we use analysis of the crystal structures in the CSD to recognize and characterize new types of noncovalent interactionsand to study already known noncovalent interactions. Based on the data from the CSD we can determine existence of the interactions,frequency of the interactions, and preferred geometries of the interactions in the crystal structures. In addition, we perform quantumchemical calculations to evaluate the energies of the interactions. Based on the calculated potential energy surfaces for theinteractions, we can determine the most stable geometries, as well as stability of various geometries. We also can determine theinteraction energies for the preferred geometries in the crystal structures. In the cases where the most preferred geometries in thecrystal structures are not the most stable geometries at the potential energy surface, one can find significant influence of thesupramolecular structures in the crystals.Using this methodology our group recognized stacking interactions of planar metal-chelate rings; stacking interactions with organicaromatic rings and stacking interactions between two chelate rings. The calculated energies indicate strong stacking interactions ofmetal-chelate rings; the stacking of metal-chelate rings is stronger than stacking between two benzene molecules [2]. The data indicateinfluence of the metal and ligand type in the metal chelate ring on the strength of the interactions. Our results also indicate strongstacking interactions of coordinated aromatic rings [3]. Studies of interactions of coordinated water indicate stronger hydrogen bondsand stronger OH/π interactions of coordinated in comparison to noncoordianted water molecule [4,5]. The calculations on OH/Minteractions between metal ion in square-planar complexes and water molecule indicate that these interactions are among the strongesthydrogen bonds in any molecular system [6].The studies on stacking interactions of benzene molecules in the crystal structures in the CSD show preference for interactions at largehorizontal displacements, while high level quantum chemical calculations indicate significantly strong interactions at large offsets; theenergy is 70% of the strongest stacking geometry [7].",
publisher = "The International Union of Crystallography (IUCr)",
journal = "Acta Crystallographica, section A",
title = "Study of noncovalent interactions using crystal structure data in the Cambridge Structural Database",
volume = "A77",
pages = "C192",
doi = "10.1107/S0108767321094903"
}

Milovanović, M. R., Živković, J. M., Ninković, D. B., Blagojević Filipović, J. P., Vojislavljević-Vasilev, D. Z., Veljković, I. S., Stanković, I. M., Malenov, D. P., Medaković, V., Veljković, D. Ž.,& Zarić, S. D.. (2021). Study of noncovalent interactions using crystal structure data in the Cambridge Structural Database. in Acta Crystallographica, section A
The International Union of Crystallography (IUCr)., A77, C192.
https://doi.org/10.1107/S0108767321094903

Milovanović MR, Živković JM, Ninković DB, Blagojević Filipović JP, Vojislavljević-Vasilev DZ, Veljković IS, Stanković IM, Malenov DP, Medaković V, Veljković DŽ, Zarić SD. Study of noncovalent interactions using crystal structure data in the Cambridge Structural Database. in Acta Crystallographica, section A. 2021;A77:C192.
doi:10.1107/S0108767321094903 .

Milovanović, Milan R., Živković, Jelena M., Ninković, Dragan B., Blagojević Filipović, Jelena P., Vojislavljević-Vasilev, Dubravka Z., Veljković, Ivana S., Stanković, Ivana M., Malenov, Dušan P., Medaković, Vesna, Veljković, Dušan Ž., Zarić, Snežana D., "Study of noncovalent interactions using crystal structure data in the Cambridge Structural Database" in Acta Crystallographica, section A, A77 (2021):C192,
https://doi.org/10.1107/S0108767321094903 . .

TY  - CONF
AU  - Veljković, Dušan Ž.
AU  - Kretić, Danijela S.
AU  - Malenov, Dušan P.
AU  - Veljković, Ivana S.
AU  - Ninković, Dragan B.
AU  - Zarić, Snežana D.
PY  - 2021
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/5348
AB  - У овом раду смо испитивали утицај нековалентних интеракција на електростатичке потенцијале и осетљивост ка детонацији одабраних високоенергетских молекула. Резултати прорачуна рађених на M06/cc-PVDZ нивоу су показали да водоничне везе значајно утичу на вредности електростатичког потенцијала и осетљивост ка детонацији високоенергетских молекула. У случајевима када високоенергетски молекул игра улогу акцептора водоника, вредности електростатичког потенцијала изнад центара високоенергетских молекула се смањују за 20-25%. Ово даје могућност за коришћење водоничног везивања за модификовање осетљивости високоенергетских молекула.
AB  - In this work we studied influence of non-covalent interactions on the electrostatic potentials and  impact sensitivity of selected high energetic molecules (HEM). Study was performed using quantum  chemical calculations on model systems and crystal structures of selected HEMs. Results of M06/cc-PVDZ calculations showed that hydrogen bonding significantly affects electrostatic  potential values and impact sensitivities of HEMs. In cases in which HEM molecules act as  hydrogen atom acceptors, electrostatic potential values in the centers of HEM molecules decreases  by 20-25%. This gives opportunity for modification of impact sensitivities of HEM molecules.
PB  - Belgrade : Serbian Chemical Society
C3  - Book of abstracts / Proceedings 57th Meeting of the Serbian Chemical Society // Kratki izvodi radova / Knjiga radova 57. Savetovanje Srpskog hemijskog društva
T1  - Улога нековалентних интеракција у модификовању особина високоенергетских  материјала
T1  - Role of non-covalent interactions in modification of properties of high energetic materials
SP  - 98
EP  - 98
UR  - https://hdl.handle.net/21.15107/rcub_cer_5348
ER  - 

@conference{
author = "Veljković, Dušan Ž. and Kretić, Danijela S. and Malenov, Dušan P. and Veljković, Ivana S. and Ninković, Dragan B. and Zarić, Snežana D.",
year = "2021",
abstract = "У овом раду смо испитивали утицај нековалентних интеракција на електростатичке потенцијале и осетљивост ка детонацији одабраних високоенергетских молекула. Резултати прорачуна рађених на M06/cc-PVDZ нивоу су показали да водоничне везе значајно утичу на вредности електростатичког потенцијала и осетљивост ка детонацији високоенергетских молекула. У случајевима када високоенергетски молекул игра улогу акцептора водоника, вредности електростатичког потенцијала изнад центара високоенергетских молекула се смањују за 20-25%. Ово даје могућност за коришћење водоничног везивања за модификовање осетљивости високоенергетских молекула., In this work we studied influence of non-covalent interactions on the electrostatic potentials and  impact sensitivity of selected high energetic molecules (HEM). Study was performed using quantum  chemical calculations on model systems and crystal structures of selected HEMs. Results of M06/cc-PVDZ calculations showed that hydrogen bonding significantly affects electrostatic  potential values and impact sensitivities of HEMs. In cases in which HEM molecules act as  hydrogen atom acceptors, electrostatic potential values in the centers of HEM molecules decreases  by 20-25%. This gives opportunity for modification of impact sensitivities of HEM molecules.",
publisher = "Belgrade : Serbian Chemical Society",
journal = "Book of abstracts / Proceedings 57th Meeting of the Serbian Chemical Society // Kratki izvodi radova / Knjiga radova 57. Savetovanje Srpskog hemijskog društva",
title = "Улога нековалентних интеракција у модификовању особина високоенергетских  материјала, Role of non-covalent interactions in modification of properties of high energetic materials",
pages = "98-98",
url = "https://hdl.handle.net/21.15107/rcub_cer_5348"
}

Veljković, D. Ž., Kretić, D. S., Malenov, D. P., Veljković, I. S., Ninković, D. B.,& Zarić, S. D.. (2021). Улога нековалентних интеракција у модификовању особина високоенергетских  материјала. in Book of abstracts / Proceedings 57th Meeting of the Serbian Chemical Society // Kratki izvodi radova / Knjiga radova 57. Savetovanje Srpskog hemijskog društva
Belgrade : Serbian Chemical Society., 98-98.
https://hdl.handle.net/21.15107/rcub_cer_5348

Veljković DŽ, Kretić DS, Malenov DP, Veljković IS, Ninković DB, Zarić SD. Улога нековалентних интеракција у модификовању особина високоенергетских  материјала. in Book of abstracts / Proceedings 57th Meeting of the Serbian Chemical Society // Kratki izvodi radova / Knjiga radova 57. Savetovanje Srpskog hemijskog društva. 2021;:98-98.
https://hdl.handle.net/21.15107/rcub_cer_5348 .

Veljković, Dušan Ž., Kretić, Danijela S., Malenov, Dušan P., Veljković, Ivana S., Ninković, Dragan B., Zarić, Snežana D., "Улога нековалентних интеракција у модификовању особина високоенергетских  материјала" in Book of abstracts / Proceedings 57th Meeting of the Serbian Chemical Society // Kratki izvodi radova / Knjiga radova 57. Savetovanje Srpskog hemijskog društva (2021):98-98,
https://hdl.handle.net/21.15107/rcub_cer_5348 .

TY  - JOUR
AU  - Živković, Jelena M.
AU  - Stanković, Ivana M.
AU  - Ninković, Dragan B.
AU  - Zarić, Snežana D.
PY  - 2021
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/4562
AB  - Geometries of aromatic/aromatic interactions in crystal structures of small molecules from the Cambridge Structural
Database (CSD) (benzene/benzene, toluene/toluene, and p-phenol/p-phenol interactions) and in protein structures from the
Protein Data Bank (PDB) (Phe/Phe and Tyr/Tyr interactions) were studied and compared. The data show a larger influence of
crystal packing/surrounding, more than the influence of substituents, on geometries of aromatic/aromatic interactions. While the
interactions in crystal structures from the CSD show preference for parallel stacking interactions at the large offsets, in proteins from
the PDB, they show preference for T-shaped geometries with small offsets.
PB  - USA : American Chemical Society
T2  - Crystal Growth & Design
T1  - Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures
VL  - 21
IS  - 4
SP  - 1898
EP  - 1904
DO  - 10.1021/acs.cgd.0c01514
ER  - 

@article{
author = "Živković, Jelena M. and Stanković, Ivana M. and Ninković, Dragan B. and Zarić, Snežana D.",
year = "2021",
abstract = "Geometries of aromatic/aromatic interactions in crystal structures of small molecules from the Cambridge Structural
Database (CSD) (benzene/benzene, toluene/toluene, and p-phenol/p-phenol interactions) and in protein structures from the
Protein Data Bank (PDB) (Phe/Phe and Tyr/Tyr interactions) were studied and compared. The data show a larger influence of
crystal packing/surrounding, more than the influence of substituents, on geometries of aromatic/aromatic interactions. While the
interactions in crystal structures from the CSD show preference for parallel stacking interactions at the large offsets, in proteins from
the PDB, they show preference for T-shaped geometries with small offsets.",
publisher = "USA : American Chemical Society",
journal = "Crystal Growth & Design",
title = "Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures",
volume = "21",
number = "4",
pages = "1898-1904",
doi = "10.1021/acs.cgd.0c01514"
}

Živković, J. M., Stanković, I. M., Ninković, D. B.,& Zarić, S. D.. (2021). Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures. in Crystal Growth & Design
USA : American Chemical Society., 21(4), 1898-1904.
https://doi.org/10.1021/acs.cgd.0c01514

Živković JM, Stanković IM, Ninković DB, Zarić SD. Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures. in Crystal Growth & Design. 2021;21(4):1898-1904.
doi:10.1021/acs.cgd.0c01514 .

Živković, Jelena M., Stanković, Ivana M., Ninković, Dragan B., Zarić, Snežana D., "Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures" in Crystal Growth & Design, 21, no. 4 (2021):1898-1904,
https://doi.org/10.1021/acs.cgd.0c01514 . .

TY  - DATA
AU  - Živković, Jelena M.
AU  - Stanković, Ivana M.
AU  - Ninković, Dragan B.
AU  - Zarić, Snežana D.
PY  - 2021
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/4562
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/4563
AB  - Additional graphics and tables; methodology, CSD and PDB searches; results from CSD search; calculations; results from PDB search.
PB  - USA : American Chemical Society
T2  - Crystal Growth & Design
T1  - Supplementary information for: "Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures"
DO  - 10.1021/acs.cgd.0c01514.s001
ER  - 

@misc{
author = "Živković, Jelena M. and Stanković, Ivana M. and Ninković, Dragan B. and Zarić, Snežana D.",
year = "2021",
abstract = "Additional graphics and tables; methodology, CSD and PDB searches; results from CSD search; calculations; results from PDB search.",
publisher = "USA : American Chemical Society",
journal = "Crystal Growth & Design",
title = "Supplementary information for: "Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures"",
doi = "10.1021/acs.cgd.0c01514.s001"
}

Živković, J. M., Stanković, I. M., Ninković, D. B.,& Zarić, S. D.. (2021). Supplementary information for: "Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures". in Crystal Growth & Design
USA : American Chemical Society..
https://doi.org/10.1021/acs.cgd.0c01514.s001

Živković JM, Stanković IM, Ninković DB, Zarić SD. Supplementary information for: "Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures". in Crystal Growth & Design. 2021;.
doi:10.1021/acs.cgd.0c01514.s001 .

Živković, Jelena M., Stanković, Ivana M., Ninković, Dragan B., Zarić, Snežana D., "Supplementary information for: "Decisive Influence of Environment on Aromatic/Aromatic Interaction Geometries. Comparison of Aromatic/Aromatic Interactions in Crystal Structures of Small Molecules and in Protein Structures"" in Crystal Growth & Design (2021),
https://doi.org/10.1021/acs.cgd.0c01514.s001 . .

TY  - JOUR
AU  - Živković, Jelena M.
AU  - Stanković, Ivana
AU  - Ninković, Dragan B.
AU  - Zarić, Snežana D.
PY  - 2020
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/3395
AB  - The study of crystal structures from the Cambridge Structural Database (CSD) shows that most of p-phenol/p-phenol and toluene/toluene stacking interactions are at large horizontal displacements (offsets) as well as benzene/benzene interactions. The interactions at large horizontal displacements are stabilized by the addition of simultaneous interactions in supramolecular structures in crystals. The stacking p-phenol/p-phenol tends to be orientated in a parallel and antiparallel fashion, while stacking toluene/toluene is almost all in an antiparallel orientation. It is in accordance with calculated interaction energies. Namely, the strongest interaction energies for parallel and antiparallel phenol/phenol dimers are -5.12 and -4.40 kcal/mol, at offsets of 1.5 and 3.0 Å, respectively, while for parallel and antiparallel toluene/toluene dimers, energies are -3.98 and -5.39 kcal/mol, at offsets of 3.0 Å. These interactions are stronger than benzene/benzene stacking (-2.85 kcal/mol), as a consequence of the presence of the substituents. Similar to benzene/benzene stacking, interactions for phenol/phenol and toluene/toluene stacking at large offsets (4.0 Å) can be strong, stronger than -2.0 kcal/mol.
PB  - American Chemical Society (ACS)
T2  - Crystal Growth and Design
T1  - Phenol and Toluene Stacking Interactions, including Interactions at Large Horizontal Displacements. Study of Crystal Structures and Calculation of Potential Energy Surfaces
VL  - 20
SP  - 1025
EP  - 1034
DO  - 10.1021/acs.cgd.9b01353
ER  - 

@article{
author = "Živković, Jelena M. and Stanković, Ivana and Ninković, Dragan B. and Zarić, Snežana D.",
year = "2020",
abstract = "The study of crystal structures from the Cambridge Structural Database (CSD) shows that most of p-phenol/p-phenol and toluene/toluene stacking interactions are at large horizontal displacements (offsets) as well as benzene/benzene interactions. The interactions at large horizontal displacements are stabilized by the addition of simultaneous interactions in supramolecular structures in crystals. The stacking p-phenol/p-phenol tends to be orientated in a parallel and antiparallel fashion, while stacking toluene/toluene is almost all in an antiparallel orientation. It is in accordance with calculated interaction energies. Namely, the strongest interaction energies for parallel and antiparallel phenol/phenol dimers are -5.12 and -4.40 kcal/mol, at offsets of 1.5 and 3.0 Å, respectively, while for parallel and antiparallel toluene/toluene dimers, energies are -3.98 and -5.39 kcal/mol, at offsets of 3.0 Å. These interactions are stronger than benzene/benzene stacking (-2.85 kcal/mol), as a consequence of the presence of the substituents. Similar to benzene/benzene stacking, interactions for phenol/phenol and toluene/toluene stacking at large offsets (4.0 Å) can be strong, stronger than -2.0 kcal/mol.",
publisher = "American Chemical Society (ACS)",
journal = "Crystal Growth and Design",
title = "Phenol and Toluene Stacking Interactions, including Interactions at Large Horizontal Displacements. Study of Crystal Structures and Calculation of Potential Energy Surfaces",
volume = "20",
pages = "1025-1034",
doi = "10.1021/acs.cgd.9b01353"
}

Živković, J. M., Stanković, I., Ninković, D. B.,& Zarić, S. D.. (2020). Phenol and Toluene Stacking Interactions, including Interactions at Large Horizontal Displacements. Study of Crystal Structures and Calculation of Potential Energy Surfaces. in Crystal Growth and Design
American Chemical Society (ACS)., 20, 1025-1034.
https://doi.org/10.1021/acs.cgd.9b01353

Živković JM, Stanković I, Ninković DB, Zarić SD. Phenol and Toluene Stacking Interactions, including Interactions at Large Horizontal Displacements. Study of Crystal Structures and Calculation of Potential Energy Surfaces. in Crystal Growth and Design. 2020;20:1025-1034.
doi:10.1021/acs.cgd.9b01353 .

Živković, Jelena M., Stanković, Ivana, Ninković, Dragan B., Zarić, Snežana D., "Phenol and Toluene Stacking Interactions, including Interactions at Large Horizontal Displacements. Study of Crystal Structures and Calculation of Potential Energy Surfaces" in Crystal Growth and Design, 20 (2020):1025-1034,
https://doi.org/10.1021/acs.cgd.9b01353 . .

TY  - JOUR
AU  - Milovanović, Milan R.
AU  - Živković, Jelena M.
AU  - Ninković, Dragan
AU  - Stanković, Ivana
AU  - Zarić, Snežana D.
PY  - 2020
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/3977
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/3586
AB  - Water molecules from crystal structures archived in the CSD show a relatively large range both in the bond angle and bond lengths. High level ab initio calculations at the CCSD(T)/CBS level predicted a possibility for energetically low-cost (±1 kcal mol−1) changes of the bond angle and bond lengths in a wide range, from 96.4° to 112.8° and from 0.930 Å to 0.989 Å, respectively.
PB  - Royal Society of Chemistry
T2  - Physical Chemistry Chemical Physics
T1  - How flexible is the water molecule structure? Analysis of crystal structures and the potential energy surface
VL  - 22
IS  - 7
SP  - 4138
EP  - 4143
DO  - 10.1039/C9CP07042G
ER  - 

@article{
author = "Milovanović, Milan R. and Živković, Jelena M. and Ninković, Dragan and Stanković, Ivana and Zarić, Snežana D.",
year = "2020",
abstract = "Water molecules from crystal structures archived in the CSD show a relatively large range both in the bond angle and bond lengths. High level ab initio calculations at the CCSD(T)/CBS level predicted a possibility for energetically low-cost (±1 kcal mol−1) changes of the bond angle and bond lengths in a wide range, from 96.4° to 112.8° and from 0.930 Å to 0.989 Å, respectively.",
publisher = "Royal Society of Chemistry",
journal = "Physical Chemistry Chemical Physics",
title = "How flexible is the water molecule structure? Analysis of crystal structures and the potential energy surface",
volume = "22",
number = "7",
pages = "4138-4143",
doi = "10.1039/C9CP07042G"
}

Milovanović, M. R., Živković, J. M., Ninković, D., Stanković, I.,& Zarić, S. D.. (2020). How flexible is the water molecule structure? Analysis of crystal structures and the potential energy surface. in Physical Chemistry Chemical Physics
Royal Society of Chemistry., 22(7), 4138-4143.
https://doi.org/10.1039/C9CP07042G

Milovanović MR, Živković JM, Ninković D, Stanković I, Zarić SD. How flexible is the water molecule structure? Analysis of crystal structures and the potential energy surface. in Physical Chemistry Chemical Physics. 2020;22(7):4138-4143.
doi:10.1039/C9CP07042G .

Milovanović, Milan R., Živković, Jelena M., Ninković, Dragan, Stanković, Ivana, Zarić, Snežana D., "How flexible is the water molecule structure? Analysis of crystal structures and the potential energy surface" in Physical Chemistry Chemical Physics, 22, no. 7 (2020):4138-4143,
https://doi.org/10.1039/C9CP07042G . .

TY  - CONF
AU  - Ninković, Dragan
AU  - Malenov, Dušan
AU  - Veljković, Dušan
AU  - Andrić, Jelena M.
AU  - Vojislavljević-Vasilev, Dubravka
AU  - Veljković, Ivana
AU  - Zarić, Snežana
PY  - 2019
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/7502
AB  - We studied noncovalent interactions of metal complexes and described several new types of these interactions. Our studies are based on analyzing data in crystal structures from the Cambridge Structural Database (CSD) and on quantum chemical calculations. The analysis of the data from the CSD enable to recognize interactions in crystal structures and to describe the geometries of these interactions, while by quantum chemical calculations we can evaluate interaction energies and find the most stable interaction geometries.Our study of planar metal-chelate rings interactions, based on data in the CSD, showed possibility of chelate ring stacking interactions with organic aromatic rings, and stacking interactions between two chelate rings in crystal structures. The quantum chemical calculations indicate strong stacking interactions of metal-chelate rings; the stacking of metal- chelate rings is stronger than stacking between two benzene molecules.Studies of interactions of coordinated water and ammonia indicate stronger hydrogen bonds and stronger OH/π and NH/π interactions of coordinated in comparison to noncoordianted water and ammonia. Namely in the crystal structures the interaction distances are shorter, while the calculations show larger interactions energies.The calculations on OH/M interactions between metal ion in square-planar complexes and water molecule indicate that these interactions are among the strongest hydrogen bonds in any molecular system.
C3  - XVII International Conference on Coordination and Bioinorganic Chemistry, Progressive Trends in Coordination, Bioinorganic, and Applied Inorganic Chemistry, Smolenice, Slovakia, June 2-7, 2019
T1  - Noncovalent interactions of metal complexes
SP  - 122
EP  - 122
UR  - https://hdl.handle.net/21.15107/rcub_cer_7502
ER  - 

@conference{
author = "Ninković, Dragan and Malenov, Dušan and Veljković, Dušan and Andrić, Jelena M. and Vojislavljević-Vasilev, Dubravka and Veljković, Ivana and Zarić, Snežana",
year = "2019",
abstract = "We studied noncovalent interactions of metal complexes and described several new types of these interactions. Our studies are based on analyzing data in crystal structures from the Cambridge Structural Database (CSD) and on quantum chemical calculations. The analysis of the data from the CSD enable to recognize interactions in crystal structures and to describe the geometries of these interactions, while by quantum chemical calculations we can evaluate interaction energies and find the most stable interaction geometries.Our study of planar metal-chelate rings interactions, based on data in the CSD, showed possibility of chelate ring stacking interactions with organic aromatic rings, and stacking interactions between two chelate rings in crystal structures. The quantum chemical calculations indicate strong stacking interactions of metal-chelate rings; the stacking of metal- chelate rings is stronger than stacking between two benzene molecules.Studies of interactions of coordinated water and ammonia indicate stronger hydrogen bonds and stronger OH/π and NH/π interactions of coordinated in comparison to noncoordianted water and ammonia. Namely in the crystal structures the interaction distances are shorter, while the calculations show larger interactions energies.The calculations on OH/M interactions between metal ion in square-planar complexes and water molecule indicate that these interactions are among the strongest hydrogen bonds in any molecular system.",
journal = "XVII International Conference on Coordination and Bioinorganic Chemistry, Progressive Trends in Coordination, Bioinorganic, and Applied Inorganic Chemistry, Smolenice, Slovakia, June 2-7, 2019",
title = "Noncovalent interactions of metal complexes",
pages = "122-122",
url = "https://hdl.handle.net/21.15107/rcub_cer_7502"
}

Ninković, D., Malenov, D., Veljković, D., Andrić, J. M., Vojislavljević-Vasilev, D., Veljković, I.,& Zarić, S.. (2019). Noncovalent interactions of metal complexes. in XVII International Conference on Coordination and Bioinorganic Chemistry, Progressive Trends in Coordination, Bioinorganic, and Applied Inorganic Chemistry, Smolenice, Slovakia, June 2-7, 2019, 122-122.
https://hdl.handle.net/21.15107/rcub_cer_7502

Ninković D, Malenov D, Veljković D, Andrić JM, Vojislavljević-Vasilev D, Veljković I, Zarić S. Noncovalent interactions of metal complexes. in XVII International Conference on Coordination and Bioinorganic Chemistry, Progressive Trends in Coordination, Bioinorganic, and Applied Inorganic Chemistry, Smolenice, Slovakia, June 2-7, 2019. 2019;:122-122.
https://hdl.handle.net/21.15107/rcub_cer_7502 .

Ninković, Dragan, Malenov, Dušan, Veljković, Dušan, Andrić, Jelena M., Vojislavljević-Vasilev, Dubravka, Veljković, Ivana, Zarić, Snežana, "Noncovalent interactions of metal complexes" in XVII International Conference on Coordination and Bioinorganic Chemistry, Progressive Trends in Coordination, Bioinorganic, and Applied Inorganic Chemistry, Smolenice, Slovakia, June 2-7, 2019 (2019):122-122,
https://hdl.handle.net/21.15107/rcub_cer_7502 .

TY  - CONF
AU  - Ninković, Dragan B.
AU  - Veljković, Dušan
AU  - Malenov, Dusan P.
AU  - Milovanović, Milan R.
AU  - Stanković, Ivana
AU  - Veljković, Ivana S.
AU  - Medaković, Vesna B.
AU  - Blagojević Filipović, Jelena
AU  - Vojislavljević-Vasilev, Dubravka Z.
AU  - Zarić, Snežana
PY  - 2019
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/6620
AB  - Our research is based on analyzing data in crystal structures from the Cambridge Structural Database (CSD) and on quantum chemical calculations. The analysis of the data from the CSD enable to recognize interactions in crystal structures and to describe the geometries of these interactions, while by quantum chemical calculations we can evaluate interaction energies and find the most stable interaction geometries. Using this methodology we were able to recognize and describe several new types of noncovalent interactions. Our study of planar metal-chelate rings interactions showed possibility of chelate ring stacking interactions with organic aromatic rings, and stacking interactions between two chelate rings. The calculated energies indicate strong stacking interactions of metal-chelate rings; the stacking of metal-chelate rings is stronger than stacking between two benzene molecules. Studies of interactions of coordinated water and ammonia indicate stronger hydrogen bonds and stronger OH/pi and NH/pi interactions of coordinated in comparison to noncoordianted water and ammonia. The calculations on OH/M interac-tions between metal ion in square-planar complexes and water molecule indicate that these interactions are among the strongest hydrogen bonds in any molecular system. The studies on aromatic molecules indicate stacking interactions at large horizontal dispacements between two aromatic molecules with significantly strong interacitons, the energy is 70% of the strongest stacking geometry. Our data also indicate that stacking interactions of an aliphatic rings with an aromatic ring are stonger than interactions between two aromatic molecules, while aliphatic/aromatic interactions are very frequent in protein structures.
PB  - Serbian Crystallographic Society
C3  - 26th Conference of the Serbian Crystallographic Society, Abstracts, Silver Lake, Serbia / XXVI Konferencija Srpskog kristalografskog društva, Izvodi radova, Srebrno jezero, Srbija
T1  - Noncovalent Interactions оf Metal Complexes аnd Aromatic Molecules
SP  - 9
EP  - 9
UR  - https://hdl.handle.net/21.15107/rcub_cer_6620
ER  - 

@conference{
author = "Ninković, Dragan B. and Veljković, Dušan and Malenov, Dusan P. and Milovanović, Milan R. and Stanković, Ivana and Veljković, Ivana S. and Medaković, Vesna B. and Blagojević Filipović, Jelena and Vojislavljević-Vasilev, Dubravka Z. and Zarić, Snežana",
year = "2019",
abstract = "Our research is based on analyzing data in crystal structures from the Cambridge Structural Database (CSD) and on quantum chemical calculations. The analysis of the data from the CSD enable to recognize interactions in crystal structures and to describe the geometries of these interactions, while by quantum chemical calculations we can evaluate interaction energies and find the most stable interaction geometries. Using this methodology we were able to recognize and describe several new types of noncovalent interactions. Our study of planar metal-chelate rings interactions showed possibility of chelate ring stacking interactions with organic aromatic rings, and stacking interactions between two chelate rings. The calculated energies indicate strong stacking interactions of metal-chelate rings; the stacking of metal-chelate rings is stronger than stacking between two benzene molecules. Studies of interactions of coordinated water and ammonia indicate stronger hydrogen bonds and stronger OH/pi and NH/pi interactions of coordinated in comparison to noncoordianted water and ammonia. The calculations on OH/M interac-tions between metal ion in square-planar complexes and water molecule indicate that these interactions are among the strongest hydrogen bonds in any molecular system. The studies on aromatic molecules indicate stacking interactions at large horizontal dispacements between two aromatic molecules with significantly strong interacitons, the energy is 70% of the strongest stacking geometry. Our data also indicate that stacking interactions of an aliphatic rings with an aromatic ring are stonger than interactions between two aromatic molecules, while aliphatic/aromatic interactions are very frequent in protein structures.",
publisher = "Serbian Crystallographic Society",
journal = "26th Conference of the Serbian Crystallographic Society, Abstracts, Silver Lake, Serbia / XXVI Konferencija Srpskog kristalografskog društva, Izvodi radova, Srebrno jezero, Srbija",
title = "Noncovalent Interactions оf Metal Complexes аnd Aromatic Molecules",
pages = "9-9",
url = "https://hdl.handle.net/21.15107/rcub_cer_6620"
}

Ninković, D. B., Veljković, D., Malenov, D. P., Milovanović, M. R., Stanković, I., Veljković, I. S., Medaković, V. B., Blagojević Filipović, J., Vojislavljević-Vasilev, D. Z.,& Zarić, S.. (2019). Noncovalent Interactions оf Metal Complexes аnd Aromatic Molecules. in 26th Conference of the Serbian Crystallographic Society, Abstracts, Silver Lake, Serbia / XXVI Konferencija Srpskog kristalografskog društva, Izvodi radova, Srebrno jezero, Srbija
Serbian Crystallographic Society., 9-9.
https://hdl.handle.net/21.15107/rcub_cer_6620

Ninković DB, Veljković D, Malenov DP, Milovanović MR, Stanković I, Veljković IS, Medaković VB, Blagojević Filipović J, Vojislavljević-Vasilev DZ, Zarić S. Noncovalent Interactions оf Metal Complexes аnd Aromatic Molecules. in 26th Conference of the Serbian Crystallographic Society, Abstracts, Silver Lake, Serbia / XXVI Konferencija Srpskog kristalografskog društva, Izvodi radova, Srebrno jezero, Srbija. 2019;:9-9.
https://hdl.handle.net/21.15107/rcub_cer_6620 .

Ninković, Dragan B., Veljković, Dušan, Malenov, Dusan P., Milovanović, Milan R., Stanković, Ivana, Veljković, Ivana S., Medaković, Vesna B., Blagojević Filipović, Jelena, Vojislavljević-Vasilev, Dubravka Z., Zarić, Snežana, "Noncovalent Interactions оf Metal Complexes аnd Aromatic Molecules" in 26th Conference of the Serbian Crystallographic Society, Abstracts, Silver Lake, Serbia / XXVI Konferencija Srpskog kristalografskog društva, Izvodi radova, Srebrno jezero, Srbija (2019):9-9,
https://hdl.handle.net/21.15107/rcub_cer_6620 .

TY  - CONF
AU  - Milovanović, Milan R.
AU  - Živković, Jelena M.
AU  - Ninković, Dragan B.
AU  - Stanković, Ivana
AU  - Zarić, Snežana
PY  - 2019
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/6149
AB  - In this study we performed analysis of non-coordinated water containing structures archived in Cambridge Structural Database (CSD), as well as ab-initio calculations on a range of bond lengths and bond angles of water molecule and water dimers.
PB  - Sociedade Portuguesa de Química
C3  - Book of abstracts - 1st Interantional Conference on Noncovalent Interactions (ICNI 2019),2-6 September, Lisbon, Portugal
T1  - Structure of water molecule and water hydrogen bonding: joint Cambridge Structural Database and ab-initio calculations study
SP  - P101
UR  - https://hdl.handle.net/21.15107/rcub_cer_6149
ER  - 

@conference{
author = "Milovanović, Milan R. and Živković, Jelena M. and Ninković, Dragan B. and Stanković, Ivana and Zarić, Snežana",
year = "2019",
abstract = "In this study we performed analysis of non-coordinated water containing structures archived in Cambridge Structural Database (CSD), as well as ab-initio calculations on a range of bond lengths and bond angles of water molecule and water dimers.",
publisher = "Sociedade Portuguesa de Química",
journal = "Book of abstracts - 1st Interantional Conference on Noncovalent Interactions (ICNI 2019),2-6 September, Lisbon, Portugal",
title = "Structure of water molecule and water hydrogen bonding: joint Cambridge Structural Database and ab-initio calculations study",
pages = "P101",
url = "https://hdl.handle.net/21.15107/rcub_cer_6149"
}

Milovanović, M. R., Živković, J. M., Ninković, D. B., Stanković, I.,& Zarić, S.. (2019). Structure of water molecule and water hydrogen bonding: joint Cambridge Structural Database and ab-initio calculations study. in Book of abstracts - 1st Interantional Conference on Noncovalent Interactions (ICNI 2019),2-6 September, Lisbon, Portugal
Sociedade Portuguesa de Química., P101.
https://hdl.handle.net/21.15107/rcub_cer_6149

Milovanović MR, Živković JM, Ninković DB, Stanković I, Zarić S. Structure of water molecule and water hydrogen bonding: joint Cambridge Structural Database and ab-initio calculations study. in Book of abstracts - 1st Interantional Conference on Noncovalent Interactions (ICNI 2019),2-6 September, Lisbon, Portugal. 2019;:P101.
https://hdl.handle.net/21.15107/rcub_cer_6149 .

Milovanović, Milan R., Živković, Jelena M., Ninković, Dragan B., Stanković, Ivana, Zarić, Snežana, "Structure of water molecule and water hydrogen bonding: joint Cambridge Structural Database and ab-initio calculations study" in Book of abstracts - 1st Interantional Conference on Noncovalent Interactions (ICNI 2019),2-6 September, Lisbon, Portugal (2019):P101,
https://hdl.handle.net/21.15107/rcub_cer_6149 .

TY  - CONF
AU  - Živković, Jelena M.
AU  - Stanković, Ivana M.
AU  - Ninković, Dragan B.
AU  - Zarić, Snežana D.
PY  - 2019
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/6261
AB  - Here, we searched the Cambridge Structural Database to find interactions of stacking benzene, p-phenol and toluene dimers. Beside this, we calculated interaction energies of phenol and toluene dimers and compared with benzene dimers previously calculated.
PB  - Serbian Chemical Society
C3  - Book of Abstracts - 7th Conference of the Young Chemists of Serbia, 2.11.2019, Belgrade
T1  - Study of phenol and toluene stacking interactions, including interactions at large horizontal displacements, in crystal structures and calculated potential energy surfaces
SP  - 154
EP  - 154
UR  - https://hdl.handle.net/21.15107/rcub_cer_6261
ER  - 

@conference{
author = "Živković, Jelena M. and Stanković, Ivana M. and Ninković, Dragan B. and Zarić, Snežana D.",
year = "2019",
abstract = "Here, we searched the Cambridge Structural Database to find interactions of stacking benzene, p-phenol and toluene dimers. Beside this, we calculated interaction energies of phenol and toluene dimers and compared with benzene dimers previously calculated.",
publisher = "Serbian Chemical Society",
journal = "Book of Abstracts - 7th Conference of the Young Chemists of Serbia, 2.11.2019, Belgrade",
title = "Study of phenol and toluene stacking interactions, including interactions at large horizontal displacements, in crystal structures and calculated potential energy surfaces",
pages = "154-154",
url = "https://hdl.handle.net/21.15107/rcub_cer_6261"
}

Živković, J. M., Stanković, I. M., Ninković, D. B.,& Zarić, S. D.. (2019). Study of phenol and toluene stacking interactions, including interactions at large horizontal displacements, in crystal structures and calculated potential energy surfaces. in Book of Abstracts - 7th Conference of the Young Chemists of Serbia, 2.11.2019, Belgrade
Serbian Chemical Society., 154-154.
https://hdl.handle.net/21.15107/rcub_cer_6261

Živković JM, Stanković IM, Ninković DB, Zarić SD. Study of phenol and toluene stacking interactions, including interactions at large horizontal displacements, in crystal structures and calculated potential energy surfaces. in Book of Abstracts - 7th Conference of the Young Chemists of Serbia, 2.11.2019, Belgrade. 2019;:154-154.
https://hdl.handle.net/21.15107/rcub_cer_6261 .

Živković, Jelena M., Stanković, Ivana M., Ninković, Dragan B., Zarić, Snežana D., "Study of phenol and toluene stacking interactions, including interactions at large horizontal displacements, in crystal structures and calculated potential energy surfaces" in Book of Abstracts - 7th Conference of the Young Chemists of Serbia, 2.11.2019, Belgrade (2019):154-154,
https://hdl.handle.net/21.15107/rcub_cer_6261 .

TY  - JOUR
AU  - Janjić, Goran
AU  - Ninković, Dragan B.
AU  - Zarić, Snežana D.
PY  - 2013
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/1205
AB  - Parallel stacking interactions between pyridines in crystal structures and the influence of hydrogen bonding and supramolecular structures in crystals on the geometries of interactions were studied by analyzing data from the Cambridge Structural Database (CSD). In the CSD 66 contacts of pyridines have a parallel orientation of molecules and most of these pyridines simultaneously form hydrogen bonds (44 contacts). The geometries of stacked pyridines observed in crystal structures were compared with the geometries obtained by calculations and explained by supramolecular structures in crystals. The results show that the mean perpendicular distance (R) between pyridine rings with (3.48 angstrom) and without hydrogen bonds (3.62 angstrom) is larger than that calculated, because of the influence of supramolecular structures in crystals. The pyridines with hydrogen bonds show a pronounced preference for offsets of 1.25-1.75 angstrom, close to the position of the calculated minimum (1.80 angstrom). However, stacking interactions of pyridines without hydrogen bonds do not adopt values at or close to that of the calculated offset. This is because stacking interactions of pyridines without hydrogen bonds are less strong, and they are more susceptible to the influence of supramolecular structures in crystals. These results show that hydrogen bonding and supramolecular structures have an important influence on the geometries of stacked pyridines in crystals.
PB  - Wiley-Blackwell, Hoboken
T2  - Acta Crystallographica Section B-Structural Science Crystal Engineering and Materials
T1  - Influence of supramolecular structures in crystals on parallel stacking interactions between pyridine molecules
VL  - 69
SP  - 389
EP  - 394
DO  - 10.1107/S2052519213013961
ER  - 

@article{
author = "Janjić, Goran and Ninković, Dragan B. and Zarić, Snežana D.",
year = "2013",
abstract = "Parallel stacking interactions between pyridines in crystal structures and the influence of hydrogen bonding and supramolecular structures in crystals on the geometries of interactions were studied by analyzing data from the Cambridge Structural Database (CSD). In the CSD 66 contacts of pyridines have a parallel orientation of molecules and most of these pyridines simultaneously form hydrogen bonds (44 contacts). The geometries of stacked pyridines observed in crystal structures were compared with the geometries obtained by calculations and explained by supramolecular structures in crystals. The results show that the mean perpendicular distance (R) between pyridine rings with (3.48 angstrom) and without hydrogen bonds (3.62 angstrom) is larger than that calculated, because of the influence of supramolecular structures in crystals. The pyridines with hydrogen bonds show a pronounced preference for offsets of 1.25-1.75 angstrom, close to the position of the calculated minimum (1.80 angstrom). However, stacking interactions of pyridines without hydrogen bonds do not adopt values at or close to that of the calculated offset. This is because stacking interactions of pyridines without hydrogen bonds are less strong, and they are more susceptible to the influence of supramolecular structures in crystals. These results show that hydrogen bonding and supramolecular structures have an important influence on the geometries of stacked pyridines in crystals.",
publisher = "Wiley-Blackwell, Hoboken",
journal = "Acta Crystallographica Section B-Structural Science Crystal Engineering and Materials",
title = "Influence of supramolecular structures in crystals on parallel stacking interactions between pyridine molecules",
volume = "69",
pages = "389-394",
doi = "10.1107/S2052519213013961"
}

Janjić, G., Ninković, D. B.,& Zarić, S. D.. (2013). Influence of supramolecular structures in crystals on parallel stacking interactions between pyridine molecules. in Acta Crystallographica Section B-Structural Science Crystal Engineering and Materials
Wiley-Blackwell, Hoboken., 69, 389-394.
https://doi.org/10.1107/S2052519213013961

Janjić G, Ninković DB, Zarić SD. Influence of supramolecular structures in crystals on parallel stacking interactions between pyridine molecules. in Acta Crystallographica Section B-Structural Science Crystal Engineering and Materials. 2013;69:389-394.
doi:10.1107/S2052519213013961 .

Janjić, Goran, Ninković, Dragan B., Zarić, Snežana D., "Influence of supramolecular structures in crystals on parallel stacking interactions between pyridine molecules" in Acta Crystallographica Section B-Structural Science Crystal Engineering and Materials, 69 (2013):389-394,
https://doi.org/10.1107/S2052519213013961 . .

TY  - JOUR
AU  - Vojislavljevic, Dubravka Z.
AU  - Janjić, Goran
AU  - Ninković, Dragan B.
AU  - Kapor, Agnes
AU  - Zarić, Snežana D.
PY  - 2013
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/1282
AB  - The interactions between water molecules (non-coordinating and coordinating) and aromatic rings were studied by analyzing data in the Cambridge Structural Database and by quantum chemical calculations. The results show the influence of water coordination to a metal ion; interactions of coordinating water are stronger. The MP2/def2-QZVP interaction energies of non-coordinating water and neutral aqua complexes [ScCl3(H2O)(3)], [ZnCl2(H2O)(4)], [CdCl2(H2O)(4)], and [ZnCl2(H2O)(2)] with benzene molecule are -3.36, -5.10, -5.43, -6.86, and -5.14 kcal mol(-1), respectively. Interactions of charged aqua complexes [ZnCl(H2O)(5)](+) and [Zn(H2O)(6)](2+) are stronger, -9.69 and -13.96 kcal mol(-1), respectively. The calculations also reveal strong long-range interactions: at the distance of 3.0 angstrom the interaction energies of neutral complexes are in the range of -4.11 to -4.91 kcal mol(-1), while interaction energies of charged complexes are -6.37 and -10.76 kcal mol(-1).
PB  - Royal Soc Chemistry, Cambridge
T2  - Crystengcomm
T1  - The influence of water molecule coordination onto the water-aromatic interaction. Strong interactions of water coordinating to a metal ion
VL  - 15
IS  - 11
SP  - 2099
EP  - 2105
DO  - 10.1039/c2ce25621e
ER  - 

@article{
author = "Vojislavljevic, Dubravka Z. and Janjić, Goran and Ninković, Dragan B. and Kapor, Agnes and Zarić, Snežana D.",
year = "2013",
abstract = "The interactions between water molecules (non-coordinating and coordinating) and aromatic rings were studied by analyzing data in the Cambridge Structural Database and by quantum chemical calculations. The results show the influence of water coordination to a metal ion; interactions of coordinating water are stronger. The MP2/def2-QZVP interaction energies of non-coordinating water and neutral aqua complexes [ScCl3(H2O)(3)], [ZnCl2(H2O)(4)], [CdCl2(H2O)(4)], and [ZnCl2(H2O)(2)] with benzene molecule are -3.36, -5.10, -5.43, -6.86, and -5.14 kcal mol(-1), respectively. Interactions of charged aqua complexes [ZnCl(H2O)(5)](+) and [Zn(H2O)(6)](2+) are stronger, -9.69 and -13.96 kcal mol(-1), respectively. The calculations also reveal strong long-range interactions: at the distance of 3.0 angstrom the interaction energies of neutral complexes are in the range of -4.11 to -4.91 kcal mol(-1), while interaction energies of charged complexes are -6.37 and -10.76 kcal mol(-1).",
publisher = "Royal Soc Chemistry, Cambridge",
journal = "Crystengcomm",
title = "The influence of water molecule coordination onto the water-aromatic interaction. Strong interactions of water coordinating to a metal ion",
volume = "15",
number = "11",
pages = "2099-2105",
doi = "10.1039/c2ce25621e"
}

Vojislavljevic, D. Z., Janjić, G., Ninković, D. B., Kapor, A.,& Zarić, S. D.. (2013). The influence of water molecule coordination onto the water-aromatic interaction. Strong interactions of water coordinating to a metal ion. in Crystengcomm
Royal Soc Chemistry, Cambridge., 15(11), 2099-2105.
https://doi.org/10.1039/c2ce25621e

Vojislavljevic DZ, Janjić G, Ninković DB, Kapor A, Zarić SD. The influence of water molecule coordination onto the water-aromatic interaction. Strong interactions of water coordinating to a metal ion. in Crystengcomm. 2013;15(11):2099-2105.
doi:10.1039/c2ce25621e .

Vojislavljevic, Dubravka Z., Janjić, Goran, Ninković, Dragan B., Kapor, Agnes, Zarić, Snežana D., "The influence of water molecule coordination onto the water-aromatic interaction. Strong interactions of water coordinating to a metal ion" in Crystengcomm, 15, no. 11 (2013):2099-2105,
https://doi.org/10.1039/c2ce25621e . .

TY  - JOUR
AU  - Sredojević, Dušan
AU  - Ninković, Dragan B.
AU  - Janjić, Goran
AU  - Zhou, Jia
AU  - Hall, Michael B.
AU  - Zarić, Snežana D.
PY  - 2013
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/1339
PB  - Wiley-V C H Verlag Gmbh, Weinheim
T2  - Chemphyschem
T1  - Stacking Interactions of Ni(acac) Chelates with Benzene: Calculated Interaction Energies
VL  - 14
IS  - 9
SP  - 1797
EP  - 1800
DO  - 10.1002/cphc.201201062
ER  - 

@article{
author = "Sredojević, Dušan and Ninković, Dragan B. and Janjić, Goran and Zhou, Jia and Hall, Michael B. and Zarić, Snežana D.",
year = "2013",
publisher = "Wiley-V C H Verlag Gmbh, Weinheim",
journal = "Chemphyschem",
title = "Stacking Interactions of Ni(acac) Chelates with Benzene: Calculated Interaction Energies",
volume = "14",
number = "9",
pages = "1797-1800",
doi = "10.1002/cphc.201201062"
}

Sredojević, D., Ninković, D. B., Janjić, G., Zhou, J., Hall, M. B.,& Zarić, S. D.. (2013). Stacking Interactions of Ni(acac) Chelates with Benzene: Calculated Interaction Energies. in Chemphyschem
Wiley-V C H Verlag Gmbh, Weinheim., 14(9), 1797-1800.
https://doi.org/10.1002/cphc.201201062

Sredojević D, Ninković DB, Janjić G, Zhou J, Hall MB, Zarić SD. Stacking Interactions of Ni(acac) Chelates with Benzene: Calculated Interaction Energies. in Chemphyschem. 2013;14(9):1797-1800.
doi:10.1002/cphc.201201062 .

Sredojević, Dušan, Ninković, Dragan B., Janjić, Goran, Zhou, Jia, Hall, Michael B., Zarić, Snežana D., "Stacking Interactions of Ni(acac) Chelates with Benzene: Calculated Interaction Energies" in Chemphyschem, 14, no. 9 (2013):1797-1800,
https://doi.org/10.1002/cphc.201201062 . .

TY  - JOUR
AU  - Andrić, Jelena M.
AU  - Janjić, Goran
AU  - Ninković, Dragan B.
AU  - Zarić, Snežana D.
PY  - 2012
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/982
AB  - The geometry of hydrogen bonds in the crystal structures from the Cambridge Structural Database and calculated data show that water coordination to a metal ion has a remarkable influence on hydrogen bonds. The calculated energies of hydrogen bonds of coordinated water are much stronger, even if the aqua complex is neutral.
PB  - Royal Soc Chemistry, Cambridge
T2  - Physical Chemistry Chemical Physics
T1  - The influence of water molecule coordination to a metal ion on water hydrogen bonds
VL  - 14
IS  - 31
SP  - 10896
EP  - 10898
DO  - 10.1039/c2cp41125c
ER  - 

@article{
author = "Andrić, Jelena M. and Janjić, Goran and Ninković, Dragan B. and Zarić, Snežana D.",
year = "2012",
abstract = "The geometry of hydrogen bonds in the crystal structures from the Cambridge Structural Database and calculated data show that water coordination to a metal ion has a remarkable influence on hydrogen bonds. The calculated energies of hydrogen bonds of coordinated water are much stronger, even if the aqua complex is neutral.",
publisher = "Royal Soc Chemistry, Cambridge",
journal = "Physical Chemistry Chemical Physics",
title = "The influence of water molecule coordination to a metal ion on water hydrogen bonds",
volume = "14",
number = "31",
pages = "10896-10898",
doi = "10.1039/c2cp41125c"
}

Andrić, J. M., Janjić, G., Ninković, D. B.,& Zarić, S. D.. (2012). The influence of water molecule coordination to a metal ion on water hydrogen bonds. in Physical Chemistry Chemical Physics
Royal Soc Chemistry, Cambridge., 14(31), 10896-10898.
https://doi.org/10.1039/c2cp41125c

Andrić JM, Janjić G, Ninković DB, Zarić SD. The influence of water molecule coordination to a metal ion on water hydrogen bonds. in Physical Chemistry Chemical Physics. 2012;14(31):10896-10898.
doi:10.1039/c2cp41125c .

Andrić, Jelena M., Janjić, Goran, Ninković, Dragan B., Zarić, Snežana D., "The influence of water molecule coordination to a metal ion on water hydrogen bonds" in Physical Chemistry Chemical Physics, 14, no. 31 (2012):10896-10898,
https://doi.org/10.1039/c2cp41125c . .

TY  - JOUR
AU  - Ninković, Dragan B.
AU  - Janjić, Goran
AU  - Zarić, Snežana D.
PY  - 2012
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/1034
AB  - Stacking interactions between pyridine molecules and the influence of simultaneous hydrogen bonds were studied by analyzing data in the Cambridge Structural Database (CSD) and by ab initio calculations. The results show remarkably stronger stacking interactions of pyridines with hydrogen bonds, because of local parallel alignment interactions of OH bonds with the aromatic ring. Data in the crystal structures from the CSD and ab initio calculations show that normal distances (R) in stacking interactions of pyridines with simultaneous hydrogen bonds are shorter than those in stacking interactions without simultaneous hydrogen bonds. Furthermore, the calculated binding energies for stacking are substantially stronger when the pyridines have hydrogen bonds; the binding energy of the stacking interaction between pyridine water dimers is -6.86 kcal/mol, while that between pyridines is -4.08 kcal/mol. Surprisingly, in the minimum energy structure of the stacked pyridine water dimers, the contribution of the local parallel-alignment interactions between water and the other pyridine (-2.98 kcal/mol) is slightly larger than the contribution of the stacking interaction between two pyridine molecules (-2.67 kcal/mol). The local influence of hydrogen bonds on stacking, via parallel alignment interactions, can be very important for all systems with heteroaromatic molecules and groups, especially DNA and RNA.
PB  - American Chemical Society (ACS)
T2  - Crystal Growth & Design
T1  - Crystallographic and ab Initio Study of Pyridine Stacking Interactions. Local Nature of Hydrogen Bond Effect in Stacking Interactions
VL  - 12
IS  - 3
SP  - 1060
EP  - 1063
DO  - 10.1021/cg201389y
ER  - 

@article{
author = "Ninković, Dragan B. and Janjić, Goran and Zarić, Snežana D.",
year = "2012",
abstract = "Stacking interactions between pyridine molecules and the influence of simultaneous hydrogen bonds were studied by analyzing data in the Cambridge Structural Database (CSD) and by ab initio calculations. The results show remarkably stronger stacking interactions of pyridines with hydrogen bonds, because of local parallel alignment interactions of OH bonds with the aromatic ring. Data in the crystal structures from the CSD and ab initio calculations show that normal distances (R) in stacking interactions of pyridines with simultaneous hydrogen bonds are shorter than those in stacking interactions without simultaneous hydrogen bonds. Furthermore, the calculated binding energies for stacking are substantially stronger when the pyridines have hydrogen bonds; the binding energy of the stacking interaction between pyridine water dimers is -6.86 kcal/mol, while that between pyridines is -4.08 kcal/mol. Surprisingly, in the minimum energy structure of the stacked pyridine water dimers, the contribution of the local parallel-alignment interactions between water and the other pyridine (-2.98 kcal/mol) is slightly larger than the contribution of the stacking interaction between two pyridine molecules (-2.67 kcal/mol). The local influence of hydrogen bonds on stacking, via parallel alignment interactions, can be very important for all systems with heteroaromatic molecules and groups, especially DNA and RNA.",
publisher = "American Chemical Society (ACS)",
journal = "Crystal Growth & Design",
title = "Crystallographic and ab Initio Study of Pyridine Stacking Interactions. Local Nature of Hydrogen Bond Effect in Stacking Interactions",
volume = "12",
number = "3",
pages = "1060-1063",
doi = "10.1021/cg201389y"
}

Ninković, D. B., Janjić, G.,& Zarić, S. D.. (2012). Crystallographic and ab Initio Study of Pyridine Stacking Interactions. Local Nature of Hydrogen Bond Effect in Stacking Interactions. in Crystal Growth & Design
American Chemical Society (ACS)., 12(3), 1060-1063.
https://doi.org/10.1021/cg201389y

Ninković DB, Janjić G, Zarić SD. Crystallographic and ab Initio Study of Pyridine Stacking Interactions. Local Nature of Hydrogen Bond Effect in Stacking Interactions. in Crystal Growth & Design. 2012;12(3):1060-1063.
doi:10.1021/cg201389y .

Ninković, Dragan B., Janjić, Goran, Zarić, Snežana D., "Crystallographic and ab Initio Study of Pyridine Stacking Interactions. Local Nature of Hydrogen Bond Effect in Stacking Interactions" in Crystal Growth & Design, 12, no. 3 (2012):1060-1063,
https://doi.org/10.1021/cg201389y . .

TY  - JOUR
AU  - Janjić, Goran
AU  - Petrović, Predrag V.
AU  - Ninković, Dragan B.
AU  - Zarić, Snežana D.
PY  - 2011
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/797
AB  - Stacking interactions of phenanthroline square-planar complexes in crystal structures were studied by analyzing data from the Cambridge Structural Database. In most of the crystal structures, two phenanthroline complexes were oriented "head to tail." Phenanthroline complexes show a wide range of overlap geometries in stacking interactions, while short metal-metal distances were not observed. Stacking chains with alternating overlaps were the predominant type of packing in the crystal structures.
PB  - Springer, New York
T2  - Journal of Molecular Modeling
T1  - Geometries of stacking interactions between phenanthroline ligands in crystal structures of square-planar metal complexes
VL  - 17
IS  - 8
SP  - 2083
EP  - 2092
DO  - 10.1007/s00894-010-0905-3
ER  - 

@article{
author = "Janjić, Goran and Petrović, Predrag V. and Ninković, Dragan B. and Zarić, Snežana D.",
year = "2011",
abstract = "Stacking interactions of phenanthroline square-planar complexes in crystal structures were studied by analyzing data from the Cambridge Structural Database. In most of the crystal structures, two phenanthroline complexes were oriented "head to tail." Phenanthroline complexes show a wide range of overlap geometries in stacking interactions, while short metal-metal distances were not observed. Stacking chains with alternating overlaps were the predominant type of packing in the crystal structures.",
publisher = "Springer, New York",
journal = "Journal of Molecular Modeling",
title = "Geometries of stacking interactions between phenanthroline ligands in crystal structures of square-planar metal complexes",
volume = "17",
number = "8",
pages = "2083-2092",
doi = "10.1007/s00894-010-0905-3"
}

Janjić, G., Petrović, P. V., Ninković, D. B.,& Zarić, S. D.. (2011). Geometries of stacking interactions between phenanthroline ligands in crystal structures of square-planar metal complexes. in Journal of Molecular Modeling
Springer, New York., 17(8), 2083-2092.
https://doi.org/10.1007/s00894-010-0905-3

Janjić G, Petrović PV, Ninković DB, Zarić SD. Geometries of stacking interactions between phenanthroline ligands in crystal structures of square-planar metal complexes. in Journal of Molecular Modeling. 2011;17(8):2083-2092.
doi:10.1007/s00894-010-0905-3 .

Janjić, Goran, Petrović, Predrag V., Ninković, Dragan B., Zarić, Snežana D., "Geometries of stacking interactions between phenanthroline ligands in crystal structures of square-planar metal complexes" in Journal of Molecular Modeling, 17, no. 8 (2011):2083-2092,
https://doi.org/10.1007/s00894-010-0905-3 . .

TY  - JOUR
AU  - Ninković, Dragan B.
AU  - Janjić, Goran
AU  - Veljković, Dušan
AU  - Sredojević, Dušan
AU  - Zarić, Snežana D.
PY  - 2011
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/878
PB  - Wiley-Blackwell, Malden
T2  - Chemphyschem
T1  - What Are the Preferred Horizontal Displacements in Parallel Aromatic-Aromatic Interactions? Significant Interactions at Large Displacements
VL  - 12
IS  - 18
SP  - 3511
EP  - 3514
DO  - 10.1002/cphc.201100777
ER  - 

@article{
author = "Ninković, Dragan B. and Janjić, Goran and Veljković, Dušan and Sredojević, Dušan and Zarić, Snežana D.",
year = "2011",
publisher = "Wiley-Blackwell, Malden",
journal = "Chemphyschem",
title = "What Are the Preferred Horizontal Displacements in Parallel Aromatic-Aromatic Interactions? Significant Interactions at Large Displacements",
volume = "12",
number = "18",
pages = "3511-3514",
doi = "10.1002/cphc.201100777"
}

Ninković, D. B., Janjić, G., Veljković, D., Sredojević, D.,& Zarić, S. D.. (2011). What Are the Preferred Horizontal Displacements in Parallel Aromatic-Aromatic Interactions? Significant Interactions at Large Displacements. in Chemphyschem
Wiley-Blackwell, Malden., 12(18), 3511-3514.
https://doi.org/10.1002/cphc.201100777

Ninković DB, Janjić G, Veljković D, Sredojević D, Zarić SD. What Are the Preferred Horizontal Displacements in Parallel Aromatic-Aromatic Interactions? Significant Interactions at Large Displacements. in Chemphyschem. 2011;12(18):3511-3514.
doi:10.1002/cphc.201100777 .

Ninković, Dragan B., Janjić, Goran, Veljković, Dušan, Sredojević, Dušan, Zarić, Snežana D., "What Are the Preferred Horizontal Displacements in Parallel Aromatic-Aromatic Interactions? Significant Interactions at Large Displacements" in Chemphyschem, 12, no. 18 (2011):3511-3514,
https://doi.org/10.1002/cphc.201100777 . .

TY  - JOUR
AU  - Janjić, Goran
AU  - Petrović, Predrag
AU  - Ninković, Dragan
AU  - Veljković, Dušan
AU  - Kapor, Agnes
AU  - Zarić, Snežana D.
PY  - 2010
UR  - https://cer.ihtm.bg.ac.rs/handle/123456789/691
AB  - In the crystal structures of terpyridyl complexes from the Cambridge Structural Database (CSD) stacking interaction between the pyridine fragments were studied. Square-planar complexes where the distance between the centers of two pyridine fragments was below 4.6 angstrom were retrieved from CSD. With this search 68 crystal structures with 167 interactions were found. In the interactions one, two or three pyridine fragments of one complex can be involved in overlapping with pyridine fragments of the other complex.
PB  - Univ Babes-Bolyai, Cluj-Napoca
T2  - Studia Universitatis Babes-Bolyai Chemia
T1  - STACKING INTERACTIONS BETWEEN PYRIDINE FRAGMENTS IN CRYSTAL STRUCTURES OF TERPYRIDYL COMPLEXES
VL  - 55
IS  - 3
SP  - 165
EP  - 176
UR  - https://hdl.handle.net/21.15107/rcub_cherry_1159
ER  - 

@article{
author = "Janjić, Goran and Petrović, Predrag and Ninković, Dragan and Veljković, Dušan and Kapor, Agnes and Zarić, Snežana D.",
year = "2010",
abstract = "In the crystal structures of terpyridyl complexes from the Cambridge Structural Database (CSD) stacking interaction between the pyridine fragments were studied. Square-planar complexes where the distance between the centers of two pyridine fragments was below 4.6 angstrom were retrieved from CSD. With this search 68 crystal structures with 167 interactions were found. In the interactions one, two or three pyridine fragments of one complex can be involved in overlapping with pyridine fragments of the other complex.",
publisher = "Univ Babes-Bolyai, Cluj-Napoca",
journal = "Studia Universitatis Babes-Bolyai Chemia",
title = "STACKING INTERACTIONS BETWEEN PYRIDINE FRAGMENTS IN CRYSTAL STRUCTURES OF TERPYRIDYL COMPLEXES",
volume = "55",
number = "3",
pages = "165-176",
url = "https://hdl.handle.net/21.15107/rcub_cherry_1159"
}

Janjić, G., Petrović, P., Ninković, D., Veljković, D., Kapor, A.,& Zarić, S. D.. (2010). STACKING INTERACTIONS BETWEEN PYRIDINE FRAGMENTS IN CRYSTAL STRUCTURES OF TERPYRIDYL COMPLEXES. in Studia Universitatis Babes-Bolyai Chemia
Univ Babes-Bolyai, Cluj-Napoca., 55(3), 165-176.
https://hdl.handle.net/21.15107/rcub_cherry_1159

Janjić G, Petrović P, Ninković D, Veljković D, Kapor A, Zarić SD. STACKING INTERACTIONS BETWEEN PYRIDINE FRAGMENTS IN CRYSTAL STRUCTURES OF TERPYRIDYL COMPLEXES. in Studia Universitatis Babes-Bolyai Chemia. 2010;55(3):165-176.
https://hdl.handle.net/21.15107/rcub_cherry_1159 .

Janjić, Goran, Petrović, Predrag, Ninković, Dragan, Veljković, Dušan, Kapor, Agnes, Zarić, Snežana D., "STACKING INTERACTIONS BETWEEN PYRIDINE FRAGMENTS IN CRYSTAL STRUCTURES OF TERPYRIDYL COMPLEXES" in Studia Universitatis Babes-Bolyai Chemia, 55, no. 3 (2010):165-176,
https://hdl.handle.net/21.15107/rcub_cherry_1159 .