University of Belgrade

Institute for
Multidisciplinary Research

Milica Počuča-Nešić
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Dr Milica Počuča-Nešić

Research Fellow (Research Assistant Professor)

Department of Materials Science (MS)

Phone: +381-11/2085-059

E-mail: milicaka@imsi.rs; milicaka@imsi.bg.ac.rs

Curriculum vitae

Education

 
2016: Ph.D. in Materials Science, University of Belgrade, Serbia. Thesis title: “Chemical and mechanochemical synthesis of yttrium manganite based multiferroics”

 

2010: M.Sc., University of Belgrade. Thesis title: “Structure and properties of LaNiO3 thin films obtained from polimer precursor”.

 

2002: B.Sc., Faculty of Chemistry, University of Belgrade.

 

Work Experience

 

2017-present: Research Assistant, Institute for Multidisciplinary Research, University of Belgrade.

 

2010-2017: Research Assistant, Institute for Multidisciplinary Research, University of Belgrade.

 

2004-2010: Research Trainee, Institute for Multidisciplinary Research, University of Belgrade.

 

Representative publications


Peer-reviewed international journals

1.

Luković Golić D., Radojković A., Ćirković J., Dapčević A., Pajić D., Tasić N., Savić S., Počuča-Nešić M., Marković S., Branković G., Marinković Stanojević Z., Branković Z. (2016) Structural, ferroelectric and magnetic properties of BiFeO3 synthesized by sonochemically assisted hydrothermal and hydro-evaporation chemical methods, Journal of the European Ceramic Society 36 (7):1623-1631. (M21) – ID=1200

2.

Počuča-Nešić M., Marinković Stanojević Z., Branković Z., Cotič P., Bernik S., Sousa Góes M., Marinković B.A., Varela J.A., Branković G. (2013) Mechanochemical synthesis of yttrium manganite. Journal of Alloys and Compounds 552: 451-456. Materials Science, Multidisciplinary 49/241, Metallurgy & Metallurgical Engineering 4/76, 2.390 – ID=135

3.

Počuča-Nešić M., Branković G., Bernik S., Rečnik A., Vasiljević-Radović D., Branković Z. (2012) TEM and FESEM investigation of lanthanum nickelate thin films obtained by chemical solution deposition. Processing and Application of Ceramics 6: 103-107 – ID=127

4.

Lukovic-Golic D., Brankovic G., Pocuca-Nesic M., Vojisavljevic K., Recnik A., Daneu N., Bernik S., Scepanovic M., Poleti D., Brankovic Z. (2011) Structural characterization of self-assembled ZnO nanoparticles obtained by the sol-gel method from Zn(CH3COO)2·2H2O. Nanotechnology 22: 395603 (9pp). Materials Science, Multidisciplinary 32/232, Physics, Applied 16/125, 3.979 – ID=119

5.

Počuča M., Branković G., Branković Z., Vasiljević-Radović D., Poleti D. (2008) Microstructure of LaNiO3 thin films obtained by the spin-on technique from citrate precursors. Ceramics International 34: 299-303. Materials Science, Ceramics 6/24 1.369 – ID=94

6.

Počuča M., Branković Z., Branković G., Vasiljević-Radović D. (2008) The influence of substrate orientation on morphology of LaNiO3 thin films. Journal of Microscopy, Oxford 232: 585-588 – ID=98

7.

Počuča M., Branković G., Branković Z., Poleti D. (2007) Optimization of processing parameters for preparation of LaNiO3 thin films from the citrate precursors. Journal of European Ceramic Society 27: 1083-1086. Materials Science, Ceramics 2/25 1.562 – ID=89

8.

Počuča M., Branković G., Branković Z., Vasiljević-Radović D., Mitrić M. (2007) Tailoring of morphology and orientation of LaNiO3 films from polymeric precursors. Journal of the European Ceramic Society 27: 3819-3822. Materials Science, Ceramics 2/25 1.562 – ID=91

9.

Djuriš K., Branković G., Branković Z., Bernik S., Počuča M. (2007) Synthesis of pure and doped LaMnO3 powders from citrate precursors. Materials Science Forum 555: 237-242 – ID=86

10.

Branković Z., Branković G., Vojisavljević K., Počuča M., Srećković T., Vasiljević-Radović D. (2007) Microstructural properties of of PZT Thin Films Deposited on LaNiO3-Coated Substrates. Materials Science Forum 555: 315-320 – ID=749

Scientific meetings

1.

Branković Z., Golić Luković D., Radojković A., Ćirković J., Tasić N., Počuča–Nešić M., Marinković Stanojević Z., Branković G. (2015) Mechanochemical vs. chemical synthesis in preparation of typical multiferroic compounds. In: Program Book / The 2015 International Symposium of the Electronic Ceramics Materials and its Application (ISECMA-2015), Oct 28-30, Shanghai China, p. 28 – ID=1263

 

Current projects

Project ID
Project Title
Financial Source
My Status
III45007 Zero- to Three-Dimensional Nanostructures for Application in Electronics and Renewable Energy Sources: Synthesis, Characterization and Processing Ministry of Education, Science and Technological Development of the Republic of Serbia Member