Univerzitet u Beogradu

Institut za Multidisciplinarna
Istraživanja

Mirjana Vijatović Petrović
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Dr Mirjana Vijatović Petrović

Viši naučni saradnik

Odsek za nauku o materijalima (MS)

Telefon: +381-11/2058-039

E-mail : mira@imsi.rs; miravijat@yahoo.com

Biografija

Obrazovanje

 

2010: Doktor nauka iz multidisciplinarnih naučnih oblasti – nauka o materijalima, Univerzitet u Beogradu. Naslov disertacije: “Uticaj dopanata na strukturu i svojstva barijum-titanatne keramike i filmova dobijenih iz organometalnih kompleksa”.

 

2006: Diplomirani inženjer tehnologije, odsek – neorganska hemijska tehnologija, smer –  analitička kontrola, Tehnološko-metalurški fakultet Univerziteta u Beogradu.

 

Radno iskustvo

 

2016-danas: Viši naučni saradnik, Institut za multidiscuplinarna istraživanja, Univerzitet u Beogradu.

 

2011-2016: Naučni saradnik, Institut za multidiscuplinarna istraživanja, Univerzitet u Beogradu.

 

2008-2011: Istraživač-saradnik, Institut za multidisciplinarna istraživanja, Univerzitet u Beogradu.

 

2006-2008: Istraživač-pripravnik, Institut za multidisciplinarna istraživanja, Univerzitet u Beogradu.

 

Stipendije i nagrade

 

2009: Treća nagrada za najbolji poster, Final Workshop COST 539, Electroceramics from Nanopowders Produced by Innovative Methods (ELENA), Aveiro, Portugal.

 

2006: Stipendija Ministartsva nauke i zaštite životne sredine, Republika Srbija.

 

2006: Specijalno priznanje Srpskog hemijskog društva za izuzetan uspeh postignut na studijama na Tehnološko-metalurškom fakultetu Univerziteta u Beogradu.

 

Istraživačka interesovanja

 

• Feroelektrični materijali.

• Magnetni materijali.

• Multiferoici.

• Sinteza prahova barijum titanata, dopiranog barijum titanata, ferita i  kompozitnih materijala hemijskim metodama.

• Sinterovanje.

• Električna i magnetna karakterizacija keramičkih materijala i primena u elektronici.

 

Ostale profesionalne aktivnosti

 

• Rukovodilac podprojekta nacionalnog projekta: “Sinteza nanoprahova i procesiranje keramike i nanokompozita sa specifičnim električnim i magnetnim svojstvima za primenu u integrisanim pasivnim komponentama” Ministarstva nauke, prosvete i tehnološkog razvoja Republike Srbije (2011-danas).

 

• Učešće na međunarodnim projektima:

 

2018-2020. Bilateralni projekat sa Republikom Austrijom pod nazivom: “Materijali Aurivilijusove strukture bez prisustva olova: korelacija Raman spektroskopije i feroelektričnih i multiferoičnih svojstava”

 

2019-2021. Bilateralni projekat sa Republikom Italijom “Bezolovni piezoelektrični i multiferoični fleksibilni filmovi za primenu u nanotehnologiji, energetski efikasnim tehnologijama i uređajima za skladištenje energije”

 

2018-2022. COST Akcija CA17123 “Ultrabrza opto-magneto elektronika za nedisipativne informacione tehnologije (MAGNETOFON)”

 

2015-2016: Bilateralni projekat “Multiferoični kompozitni materijali za nove primene” sa republikom Slovenijom.

 

2013-2017: COST Action: COST IC1208, “Integrating devices and materials: a challenge for new instrumentation in ICT“.

 

2010-2014: COST MP0904 “Single and multiphase ferroics and multiferroics with restricted geometries – SIMUFER”.

 

2006-2010: COST 539 “Electroceramics Produced from Nanopowders by Innovative Methods-ELENA”.

 

2006-2010: KMM-NoE, “Multifunctional Materials”, FP6.

 

 

• Učešće na projektu P142010: “Sinteza, karakterizacija i aktivnost organskih i koordinacionih jedinjenja i njihova primena u (bio) nanotehnologiji”, Ministrastvo nauke Republike Srbije (2006-2010).

 

• Učešće na kursu “Processing of Advanced Materials”, The Third Intensive Session of Integrated Post-Graduated School, Imperial College, London, UK, organized by KMM-NoE, “Multifunctional Materials”, FP6 project (2007)

 

• Radne posete u inostranstvu:

 

2009: Institut Jožef Stefan, Ljubljana, Slovenija, u okviru saradnje na projektu COST 539. Tema: Karakterizacija debelih filmova čistog i dopiranog BaTiO3.

 

2008: Laboratorija za dielektrična merenja, Fakultet za fiziku, Vilnius, Litvanija u okviru saradnje na projektu COST 539. Tema: Dielektrična svojstva keramike čistog i dopiranog barijum titanata.

 

2007: Ecole Polytechnique Federale de Laussane, Lozana, Švajcarska, u okviru saradnje na projektu COST 539. Tema: Karakterizacija prahova čistog i dopiranog BaTiO3 dobijenih metodom iz polimernih prekursora.

 

Reprezentativne publikacije


Knjige

1.

Magnetic, Ferroelectric, and Multiferroic Metal Oxides, Elsevier Publisher 2018, Edited by Biljana D. Stojanovic and Series Editor Ghenadii Korotcenkov

Chapter 2: Perovskite and Aurivillius: Types of ferroelectric metal oxides, Pages 35-49
Mirjana M. Vijatovic Petrovic, Jelena D. Bobic

Chapter 11: Review of the most common relaxor ferroelectrics and their applications, pages 233-249
Jelena D. Bobic, Mirjana M. Vijatovic Petrovic, Biljana D. Stojanovic

Chapter 26: Bulk composite multiferroics: BaTiO3-ferrites, pages 545-557
Mirjana M. Vijatovic Petrovic, Jelena D. Bobic, Biljana D. Stojanovic

Chapter 27: Complex composites: Polymer matrix-ferroics or multiferroics, pages 559-569
Biljana D. Stojanovic, Adis S. Dzunuzovic, Nikola I. Ilic, Mirjana M. Vijatovic Petrovic

– ID=1498

2.

Nanoscale Ferroelectrics and Multiferroics: Key Processing and Characterization Issues, and Nanoscale Effects, First Edition. Edited by Miguel Alguer´o, J. Marty Gregg, and Liliana Mitoseriu.© 2016 John Wiley & Sons
Chapter 17: Correlation between Microstructure and Electrical Properties of Ferroelectric Relaxors, chapter 17 pp 554-587
Jelena D. Bobic, Jan Macutkevic, Robertas Grigalaitis, Maksim Ivanov, Mirjana M. Vijatovic Petrovic, Juras Banys, Biljana D. Stojanovic
– ID=1497

Recenzirani međunarodni časopisi

1.

M.M. Vijatović Petrović, A. Radojković, J.D. Bobić, A. Džunuzović, N. Ilić, B.D. Stojanović (2019) Sensing properties of barium titanate nanoceramics tailored by doping and microstructure control, J. Mater. Sci. DOI: 10.1007/s10853-018-03308-4. – ID=1495

2.

Adis S. Džunuzovic, Mirjana M. Vijatovic Petrovic, Nikola I. Ilic, Jelena D. Bobic, Biljana D. Stojanovic (2019) Magneto-dielectric properties of ferrites and ferrite/ferroelectric multiferroic composites, Processing and Applicastions of Ceramics, 13 [1] (2019), 104-113 – ID=1505

3.

A.S. Dzunuzovic, M.M. Vijatovic Petrovic, J.D. Bobic, N.I. Ilic, M. Ivanov, R. Grigalaitis, J. Banys, B.D. Stojanovic (2018) Magneto-electric properties of xNi0.7Zn0.3Fe2O4 – (1-x)BaTiO3 multiferroic composites, Ceram. Int. 44, 683–694. – ID=1493

4.

J.D. Bobić, M. Ivanov, N.I. Ilić, A.S. Dzunuzović, M.M. Vijatović Petrović, J. Banys, A. Ribic, Z. Despotovic, B.D. Stojanovic (2018) PZT-nickel ferrite and PZT-cobalt ferrite comparative study: Structural, dielectric, ferroelectric and magnetic properties of composite ceramics, Ceram. Int. 44, 6551–6557. – ID=1494

5.

Vijatovic Petrovic M.M., Grigalaitis R., Dzunuzovic A., Bobic J.D., Stojanovic B.D., Salasevicius R., Banys J.(2018) Positive influence of Sb doping on properties of di-phase multiferroics based on barium titanate and nickel ferrite, Journal of Alloys and Compounds 749, 1043e1053
– ID=1496

6.

Bobić J.D., Katiliute R.M., Ivanov M., Ilić N.I., Dzunuzović A.S., Vijatović Petrović M.M., Banys J., Stojanović B.D. (2017) Influence of tungsten doping on dielectric, electrical and ferroelectric behavior of BaBi4Ti4O15 ceramics. Journal of Alloys and Compounds 702: 619-625 – ID=1249

7.

M.M. Vijatović Petrović, R. Grigalaitis, N. Ilic, J.D. Bobić, A. Dzunuzovic, J. Banys, B.D. Stojanović (2017) Interdependence between structure and electrical characteristics in Sm-doped barium titanate, J. Alloy Compd. 724, 959-968. – ID=1490

8.

Ilić N.I., Bobić J.D., Stojadinović B.S., Džunuzović A.S., Vijatović Petrović M.M., Dohčević-Mitrović Z.D., Stojanović B.D. (2016) Improving of the electrical and magnetic properties of BiFeO3 by doping with yttrium. Materials Research Bulletin 77: 60-69 – ID=1250

9.

Bobić J.D., Katiliute R.M., Ivanov M., Vijatović Petrović M.M., Ilić N.I., Džunuzović A.S., Banys J., Stojanović B.D. (2016) Dielectric, ferroelectric and magnetic properties of La doped Bi5Ti3FeO15 ceramics. Journal of Material Science: Materials in Electronics 27: 2448–2454 – ID=1253

10.

Bobić J.D., Vijatović Petrović M.M., Ilić N.I., Palaimiene E., Grigalaitis R., Paiva Santos C.O., Cilence M., Stojanović B.D. (2015) Lead-free BaBi4Ti4O15 ceramics: Effect of synthesis methods on phase formation and electrical properties. Ceramics International 41: 309-316.

– ID=1029

11.

Ilic N.I., Džunuzovic A.S., Bobic J.D., Stojadinovic B.S., Hammer P., Vijatovic Petrovic M.M., Dohcevic-Mitrovi Z.D., Stojanovic B.D. (2015) Structure and properties of chemically synthesized BiFeO3: Influence of fuel and complexing agent. Ceramics International 41: 69-77. – ID=1031

12.

Džunuzović A.S., Ilić N.I., Vijatović Petrović M.M., Bobić J.D., Stojadinović B., Dohčević-Mitrović Z., Stojanović B.D. (2015) Structure and properties of Ni–Zn ferrite obtained by auto-combustion method. Journal of Magnetism and Magnetic Materials 374: 245-251. – ID=1030

13.

Vijatović Petrović M.M., Bobić J.D., Grigalaitis R., Ilic N.I., Dzunuzovic A.S., Jankauskaite V., Banys J., Stojanović B.D. (2015) Donor–acceptor joint effect in barium titanate systems. Ceramics International 41: 11365–11371 – ID=1251

14.

Dzunuzovic A.S., Vijatovic Petrovic M.M., Stojadinovic B.S., Ilic N.I., Bobic J.D., Foschini C.R., Zaghete M.A., Stojanovic B.D. (2015) Multiferroic (NiZn)Fe2O4–BaTiO3 composites prepared from nanopowders by auto-combustion method. Ceramics International 41: 13189–13200 – ID=1252

15.

Vijatović Petrović M.M.,  Bobić J.D., Banys J., Stojanović B.D. (2013) Electrical properties of antimony doped barium titanate ceramics. Materials Research Bulletin 48: 3766-3772. Materials Science, Multidisciplinary 71/241, 1.913 – ID=888

16.

Bobić J.D., Vijatović Petrović M.M., Banys J., Stojanović B.D. (2013) Effect of La substitution on the structural and electrical properties of BaBi4−xLaxTi4O15. Ceramics International 39: 8049–8057. Materials Science, Ceramics 3/27, 1.789 – ID=890

17.

Petrovic M.M.,  Bobic J.D., Ursic H., Banys J., Stojanovic B.D. (2013) The electrical properties of chemically obtained barium titanate improved by attrition milling. Journal of Sol Gel Science 67: 267-272. Materials Science, Ceramics 4/27, 1.660 – ID=889

18.

Vijatovic Petrovic M.M., Bobic J.D., Grigalaitis R., Stojanovic B.D., Banys J. (2013) La-doped and La/Mn-co-doped Barium Titanate Ceramics. Acta Physica Polonica A 124: 155-160. – ID=1032

19.

Bobic J.D., Vijatovic Petrovic M.M., Banys J., Stojanovic B.D. (2012) Electrical properties of niobium doped barium bismuth-titanate ceramics. Materials Research Bulletin 47: 1874-1880. Materials Science, Multidisciplinary 71/241 1.913 – ID=41

20.

Vijatovic Petrovic M.M., Bobic J.D., Radojkovic A.M., Banys J., Stojanovic B.D. (2012) Improvement of barium titanate properties induced by attrition milling. Ceramics International 38: 5347-5354. Materials Science, Ceramics 3/27 1.789 (M21) – ID=40

21.

Vijatovic Petrovic M.M., Bobic J.D., Ramoska T., Banys J., Stojanovic B.D. (2011) Antimony doping effect on barium titanate structure and electrical properties. Ceramics International 37: 2669-2677. Materials Science, Ceramics 3/25 1.751 – ID=39

22.

Vijatović Petrović M.M., Bobić J.D., Ramoška T., Banys J., Stojanović B.D. (2011) Electrical properties of lanthanum doped barium titanate ceramics. Materials Characterization 62: 1000-1006. Materials Science, Characterization & Testing 3/32, 1.572 – ID=38

23.

Lazarevic Z.Z., Vijatovic M., Dohcevic-Mitrovic Z., Romcevic N.Z., Romcevic M.J., Paunovic N., Stojanovic B.D.(2010) The characterization of the barium titanate ceramic powders prepared by the Pechini type reaction route and mechanically assisted synthesis. Journal of the European Ceramic Society 30: 623-628. Materials Science, Ceramics 1/25 2.575 – ID=786

24.

Bobic J.D., Vijatovic M.M., Greicius S., Banys J., Stojanovic B.D. (2010) Dielectric and relaxor behavior of BaBi4Ti4O15 ceramics. Journal of Alloys and Compounds 499: 221-226. Materials Science, Multidisciplinary 50/225, Metallurgy & Metallurgical Engineering 5/76, 2.138 – ID=37

25.

Lazarevic Z., Vijatovic M., Stojanovic B.,  Romcevic M., Romcevic N. (2010) Structure study of nanosized La- and Sb-doped BaTiO3. Journal of Alloys and Compounds 494: 472-475. Materials Science, Multidisciplinary 50/225, Metallurgy & Metallurgical Engineering 5/76, 2.138 – ID=787

26.

Vijatovic M.M., Stojanovic B.D., Bobic J.D., Ramoska T., Bowen P. (2010) Properties of lanthanum doped BaTiO3 produced from nanopowders. Ceramics International 36: 1817-1824. Materials Science, Ceramics 5/25 1.472 – ID=36

27.

Vijatović M.M., Bobić J.D., Stojanović B.D. (2008) History and Challenges of Barium Titanate: Part I. Science of Sintering 40: 155-165 – ID=784

28.

Vijatović M.M., Bobić J.D., Stojanović B.D. (2008) History and Challenges of Barium Titanate: Part II. Science of Sintering 40: 235-244 – ID=785

29.

Stojanovic B.D., Pejovic V., Vijatovic М.М., Zaghete М.А. (2007) Screen Printed PLZT Thick Films Prepared from Nanopowders. Journal of the European Ceramic Society 27: 4359-4362. Materials Science, Ceramics 2/25 1.562 – ID=783

 

 

Tekući projekti

Oznaka projekta
Naziv projekta
Finansiranje
Moj status
COST Action CA17123 Ultrabrza opto-magneto elektronika za nedisipativne informacione tehnologije (MAGNETOFON) COST (Evropska saradnja u nauci i tehnologiji) Član Upravnog odbora
Bilateralni SRB-ITA Bezolovni piezoelektrični i multiferoični fleksibilni filmovi za primenu u nanotehnologiji, energetski efikasnim tehnologijama i uređajima za skladištenje energije Bilateralna saradnja između Republike Srbije i Italijanske Republike Koordinator
Bilateralni SRB-AUT Materijali Aurivilijusove strukture bez prisustva olova: korelacija Raman spektroskopije i feroelektričnih i multiferoičnih svojstava Bilateralna saradnja između Republike Srbije i Republike Austrije Učesnik
III45021 Sinteza nanoprahova i procesiranje keramike i nanokompozita sa specifičnim električnim i magnetnim svojstvima za primenu u integrisanim pasivnim komponentama Ministarstvo prosvete, nauke i tehnološkog razvoja Republike Srbije Rukovodilac potprojekta