Assistant Professor dr NEMANJA BANIĆ

  • Finčur, N.L.; Krstić, J.B.; Šibul, F.S.; Šojić, D.V.; Despotović, V.N.; Banić, N.D.; Agbaba, J.R.; Abramović, B.F. Removal of alprazolam from aqueous solutions by heterogeneous photocatalysis: Influencing factors, intermediates, and products. Chem. Eng. J. 2017, 307, 1105–1115. IF: 5.310
  • Banić, N.; Abramović, B.; Šibul, F.; Orčić, D.; Watson, M.; Vraneš, M.; Gadžurić, S. Advanced oxidation processes for the removal of [bmim][Sal] third generation ionic liquids: Effect of water matrices and intermediates identification. RSC Adv. 2016, 6, 52826–52837. IF: 3.289
  • Vraneš, M.; Armaković, S.; Tot, A.; Papović, S.; Zec, N.; Armaković, S.; Banić, N.; Abramović, B.; Gadžurić, S. Structuring of water in the new generation ionic liquid - Comparative experimental and theoretical study. J. Chem. Thermodyn. 2016, 93, 164–171. IF: 2.196
  • Banić, N.D.; Abramović, B.F.; Šojić, D.V.; Krstić, J.B.; Finčur, N.L.; Bočković, I.P. Efficiency of neonicotinoids photocatalytic degradation by using annular slurry reactor. Chem. Eng. J. 2016, 286, 184–190. IF: 5.310
  • Šojić, D.V.; Orčić, D.Z.; Četojević-Simin, D.D.; Banić, N.D.; Abramović, B.F. Efficient removal of sulcotrione and its formulated compound Tangenta® in aqueous TiO2 suspension: Stability, photoproducts assessment and toxicity. Chemosphere 2015, 138, 988–994. IF: 3.698
  • Jakšić, S.; Živkov-Baloš M.; Mihaljev, Ž.; Mašić, Z.; Jajić,; Banić, N; Abramović, B. Extraction without organic solvents in the determination of fumonisins B1, B2, and B3 in maize by HPLC–FLD and ELISA tests. Food Anal. Method 2015, 8, 1446–1455. IF: 2.167
  • Banić, N; Vraneš, M.; Abramović, B.; Csanádi, J.; Gadžurić, S. Thermochromism, stability and thermodynamics of cobalt(II) complexes in newly synthesized nitrate based ionic liquid and its photostability. Dalton T. 2014, 43, 15515–15525. IF: 4.197
  • Banić, N.D.; Šojić, D.V.; Krstić, J.B.; Abramović, B.F. Photodegradation of neonicotinoid active ingredients and their commercial formulations in water by different advanced oxidation processes. Water Air Soil Poll. 2014, 225, 1954. IF: 1.554
  • Abramović, B.F.; Banić, N.D.; Krstić, J.B. Degradation of thiacloprid by ZnO in laminar falling film slurry photocatalytic reactor. Ind. Eng. Chem. Res. 2013, 52, 5040–5047. IF: 2.235
  • Banić, N.; Abramović, B.; Krstić, J.; Šojić, D.; Lončarević, D.; Cherkezova–Zheleva, Z.; Guzsvány, V. Photodegradation of thiacloprid using Fe/TiO2 as a heterogeneous photo– Fenton catalyst. Appl. Catal. B: Environ. 2011, 107, 363–371. IF: 5.625
  • Abramović, B.F.; Banić, N.D.; Šojić, D.V. Degradation of thiacloprid in aqueous solution by UV and UV/H2O2 Chemosphere 2010, 81, 114–119. IF: 3.253
  • Guzsvány, V.; Banić, N.; Papp, Z.; Gaál, F.; Abramović, B. Comparison of different iron–based catalysts for photocatalytic removal of imidacloprid. Reac. Kinet. Mech. Cat. 2010, 99, 225–233. IF: 0.610