Max-width 100%
Şeniz Uçar
Dr.
Room No: E-213
Tel: +90 (312) 210-5911
Fax: +90 (312) 210-2518
Twitter: @senizu1


Education:
  • Postdoctoral fellow (2022), Norwegian University of Science and Technology, Dept of Chemical Engineering, Norway
  • PhD (2017), Norwegian University of Science and Technology, Dept of Chemical Engineering, Norway
  • MSc (2012), Middle East Technical University, Dept of Chemistry, Turkey
  • BSc (2009), Middle East Technical University, Dept of Chemistry, Turkey
Research Interests:
  • Industrial crystallization
  • Crystal growth mechanisms
  • Biomineralization
  • Micro- and nanoparticle design
  • Hydrometallurgy and resource recovery
Publications:
  • Jenssen, I.B., Bøckman, O., Andreassen, J.-P., Ucar, S. The Effect of Reaction Conditions and Presence of Magnesium on the Crystallization of Nickel Sulfate, Crystals, 2021, 11, 1485.
  • Jenssen, I.B., Ucar, S., Dotterud, O.M., Bøckman, O., Andreassen, J.-P., Investigating the effects of process parameters on the filtration performance of ferric hydroxide in a continuous MSMPR reactor, Hydrometallurgy, 2021, 202, 105594.
  • Shaddel, S., Grini, T., Andreassen, J.-P., Østerhus, S.W., Ucar, S., Crystallization kinetics and growth of struvite crystals by seawater versus magnesium chloride as magnesium source: towards enhancing sustainability and economics of struvite crystallization, Chemosphere, 2020, 256, 126968.
  •  Shaddel, S., Grini, T., Ucar, S., Azrague, K., Andreassen, J.-P., Østerhus, S.W., Struvite crystallization by using raw seawater: Improving economics and environmental footprint while maintaining phosphorus recovery and product quality, Water Research, 2020, 173, 115572.
  • Wang, L., Andreassen, J.P., Ucar, S., Precipitation of Silver Particles with Controlled Morphologies from Aqueous Solutions, CrystEngComm, 2020, 22, 478-486.
  • Ucar, S., Bjørnøy, S.H., Bassett, D.C., Strand, B.L., Sikorski, P., Andreassen, J.P., Formation of Hydroxyapatite via Transformation of Amorphous Calcium Phosphate in The Presence of Alginate Additives, Crystal Growth and Design, 2019, 19, 7077−7087.
  • Shaddel, S., Ucar, S., Andreassen, J.-P., Østerhus, S.W., Enhancing efficiency and economics of phosphorus recovery process by customizing the product based on sidestream characteristics–an alternative phosphorus recovery strategy, Water Science and Technology, 2019, 79 (9), pp. 1777-1789.
  •  Shaddel, S., Ucar, S., Andreassen, J.-P., Østerhus, S.W., Engineering of struvite crystals by regulating supersaturation–correlation with phosphorus recovery, crystal morphology and process efficiency, Journal of Environmental Chemical Engineering, 2019, 7 (1), pp. 102918.
  •  Ucar, S., Bjørnøy, S.H., Bassett, D.C., Strand B.L., Sikorski, P., Andreassen, J.-P., Transformation of brushite to hydroxyapatite and effects of alginate additives, Journal of Crystal Growth, 2017, 468, pp. 774-780.
  • Bjørnøy, S.H., Bassett, D.C., Ucar, S., Andreassen, J.-P., Sikorski, P., Letter to the Editor re “Characterization of alginate-brushite in-situ hydrogel composites”, Materials Science and Engineering C, 2017, 70, pp. 930-931.
  • Bjørnøy, S.H., Bassett, D.C., Ucar, S., Strand, B.L., Andreassen, J.-P., Sikorski, P., A correlative spatiotemporal microscale study of calcium phosphate formation and transformation within an alginate hydrogel matrix, Acta Biomaterialia, 2016, 44, pp. 254-266.
  • Bjørnøy, S.H., Mandaric, S., Bassett, D.C., Åslund A.K.O., Ucar, S., Andreassen, J.-P., Strand, B.L., Sikorski, P., Gelling kinetics and in situ mineralization of alginate hydrogels: A correlative spatiotemporal characterization toolbox, Acta Biomaterialia, 2016, 44, pp. 243-253.
  • Fytianos, G., Ucar, S., Grimstvedt, A., Hyldbakk, A., Svendsen, H.F., Knuutila, H.K., Corrosion and degradation in MEA based post-combustion CO2 capture, International Journal of Greenhouse Gas Control, 2016, 46, pp. 48-56.
  • Bjørnøy, S.H., Bassett, D.C., Ucar, S., Andreassen, J.-P., Sikorski, P., Controlled mineralisation and recrystallisation of brushite within alginate hydrogels, Biomedical Materials (Bristol), 2016, 11, 015013.
  • Ucar, S., Bjørnøy, S.H., Bassett, D.C., Strand B.L., Sikorski, P., Andreassen, J.-P., Nucleation and Growth of Brushite in the Presence of Alginate, Crystal Growth and Design, 2015, 15, pp. 5397-5405.
  • Ucar, S., Ermis, M., Hasirci, N., Modified chitosan scaffolds: Proliferative, cytotoxic, apoptotic, and necrotic effects on Saos-2 cells and antimicrobial effect on Escherichia coli, Journal of Bioactive and Compatible Polymers, 2015, 31(3), pp. 304-319.
  • Ucar, S., Yilgor, P., Hasirci, V., Hasirci, N., Chitosan-based wet-spun scaffolds for bioactive agent delivery, Journal of Applied Polymer Science, 2013, 130(5), pp. 3759-3769.


Last Updated:
14/03/2022 - 14:25