Anton Ievlev

Anton Ievlev

Postdoctoral research associate


Anton V. Ievlev is currently Postdoctoral Research Associate in the Scanning Probe Microscopy group at the Center for Nanophase Materials Sciences (CNMS), a Department of Energy Nanoscale Science Research Center. His research interests focus on nanoscale functional investigations of the wide range of functional materials using advanced Atomic Force Microscopy (AFM) and optical spectroscopy techniques along with advanced mathematical and statistical "Big-data" tools for data analysis,numerical modeling and simulation. Anton has published 25 journal articles.

Ural State University, Ekaterinburg, Russia, Physics, B.S., 2007
Ural State University, Ekaterinburg, Russia, Physics, M.S., 2009
Ural Federal University, Ekaterinburg, Russia, Physics, PhD, 2012

Professional Experience
2013 - p Postdoctoral Research Associate; Scanning Probe Microscopy Group, Center for Nanophase Materials Science, Oak Ridge National Laboratory
2012 – 2013 Researcher, Institute of Natural Sciences, Ural Federal University, Ekaterinburg, Russia
2006 – 2012 Junior Researcher, Institute of Physics and Applied Mathematics, Ural State University, Ekaterinburg, Russia


1. Ievlev A.V., Susner M.A., McGuire M.A., Maksymovych P and Kalinin S.V., Quantitative analysis of the local phase transitions induced by laser heating, ACS NANO, 9 (12), 12442 (2015).

2. Ievlev A.V., Jesse S., Cochell T.J. Unocic R.R., Protopopescu V.A. and Kalinin S.V.,
Quantitative Description of Crystal Nucleation and Growth from In situ Liquid Scanning Transmission Electron Microscopy, ACS NANO, 9 (12), 11784 (2015).

3. Cao Y., Ievlev A.V., Morozovska A.N., Chen L.-Q., Kalinin S.V. and Maksymovych P., Intrinsic space charge layers and field enhancement in ferroelectric nanojunctions, APPLIED PHYSICS LETTERS, 107 (2), 022903 (2015).

4. Ievlev A.V., Morozovska A.N., Shur V.Ya. and Kalinin S.V., Ferroelectric Switching by the Grounded Scanning Probe Microscopy Tip, PHYSICAL REVIEW B, 91, 214109 (2015).

5. Belianinov A., Vasudevan R., Strelcov E., Ievlev A., Steed C., Yang S.M., Tselev A., Jesse S., Biegalski M., Shipman G., Symons C., Borisevich A., Archibald R. and Kalinin S., Big data and deep data in scanning and electron microscopies: deriving functionality from multidimensional data sets, ADVANCED STRUCTURAL AND CHEMICAL IMAGING, 1:6 (2015).

6. Ievlev A.V. and Kalinin S.V., Data encoding based on the shape of the ferroelectric domains produced by a scanning probe microscopy tip, NANOSCALE, 7, 11040 (2015).

7. Alikin D.O., Ievlev A.V., Turygin A.P, Lobov A.I., Kalinin S.V. and Shur V.Ya., Tip-induced domain growth on the non-polar cuts of lithium niobate single-crystals, APPLIED PHYSICS LETTERS, 106 (18), 182902 (2015).

8. Ievlev A.V., Alikin D.O., Morozovska A.N., Varenyk O.V., Eliseev E.A., Kholkin A.L., Shur V.Ya. and Kalinin S.V., Symmetry breaking and electrical frustration during tip-induced polarization switching in the non-polar cut of lithium niobate single crystals, ACS NANO, 9 (1), 769 (2015).

9. Morozovska A.N., Eliseev E.A., Ievlev A.V., Varenyk O.V., Pusenkova A.S., Chu Y.-H., Strikha M.V., Shur V.Ya. and Kalinin S.V., Ferroelectric domain triggers the charge modulation in semiconductors, JOURNAL OF APPLIED PHYSICS 106 (6), 066817 (2014).

10. Ievlev A.V., Morozovska A.N., Eliseev E.A., Shur V.Ya. and Kalinin S.V., Ionic field effect and memristive phenomena in single-point ferroelectric domain switching, NATURE COMMUNICATIONS 5:4545 doi:10.1038/ncomms5545 (2014).

11. Eliseev E.A., Morozovska A.N., Ievlev A.V., Balke N., Maksymovych P., Tselev A. and Kalinin S.V., Electrostrictive and electrostatic responses in contact mode voltage modulated Scanning Probe Microscopies, APPLIED PHYSICS LETTERS 104 (23), 232901 (2014).

12. Ievlev A.V., Morozovska A.N., Shur V.Ya. and Kalinin S.V., Humidity effects on tip-induced polarization switching in lithium niobate, APPLIED PHYSICS LETTERS 104 (9), 092908 (2014).

13. Strelcov E., Ievlev A.V., Jesse S., Kravchenko I.I., Shur V.Ya., and Kalinin S.V., Direct Probing of Charge Injection and Polarization-Controlled Ionic Mobility on Ferroelectric LiNbO3 Surfaces, ADVANCED MATERIALS, 26, 958-963 (2014)

14. Ievlev A.V., Jesse S., Morozovska A., Strelcov E., Eliseev E., Pershin Y., Kumar A., Shur V.Ya. and Kalinin S.V., Intermittency, Quasiperiodicity, and Chaos during Scanning Probe Microscopy Tip-Induced Ferroelectric Domain Switching, NATURE PHYSICS, 10, 59-66 (2013).
15. Zelenovskiy, P.S., Shikhova V.A., Ievlev A.V., Neradovskiy M.M. and Shur V.Ya., Micro-Raman Visualization of Domain Structure in Strontium Barium Niobate Single Crystals, FERROELECTRICS 439 (1), 33-39 (2012).

16. Smirnova A.N., Mushinskiy S.S., Baturin I.S., Azanova I.S., Shevtsov D.I., Akhmatkhanov A.R., Ievlev A.V. and Shur V.Ya., Electric Field Poling of Lithium Niobate Crystals after Proton-Exchanged Channel Waveguide Fabrication FERROELECTRICS 441, 9-16 (2012).

17. Shur V.Ya. Shikhova V.A., Ievlev A.V., Zelenovskiy P.S., Neradovskiy M.M., Pelegov D.V. and Ivleva L.I., Nanodomain structures formation during polarization reversal in uniform electric field in strontium barium niobate single crystals, JOURNAL OF APPLIED PHYSICS 112 (6), 064117 (2012).

18. Shur V.Ya., Alikin D.O., Ievlev A.V., Dolbilov M.A., Sarmanova M.F. and Gavrilov N.V., Formation of nanodomain structures during polarization reversal in congruent lithium niobate implanted with Ar ions IEEE TRANSACTIONS ON ULTRASONICS, ferroelectrics, and frequency control 59 (9), 1934-41 (2012).

19. Shur V.Ya., Shikhova V.A, Pelegov D.V., Ievlev A.V. and Ivleva L.I., Formation of nanodomain ensembles during polarization reversal in Sr0.61Ba0.39Nb2O6: Ce single crystals, PHYSICS OF THE SOLID STATE, 53 (11), 2311-2315 (2011).

20. Shur V.Ya., Kuznetsov D.K., Mingaliev E.A., Yakunina E.M., Lobov A.I. and Ievlev A.V., In situ investigation of formation of self-assembled nanodomain structure in lithium niobate after pulse laser irradiation, APPLIED PHYSICS LETTERS 99 (8), 082901 (2011).

21. Shur V.Ya., Ievlev A.V., Nikolaeva E.V., Shishkin E.I. and Neradovskiy M.M., Influence of adsorbed surface layer on domain growth in the field produced by conductive tip of scanning probe microscope in lithium niobate, JOURNAL OF APPLIED PHYSICS 110 (5), 052017 (2011).

22. Shur V.Ya., Zelenovskiy P.S., Nebogatikov M.S., Alikin D.O., Sarmanova M.F., Ievlev A.V., Mingaliev E.A. and Kuznetsov D.K., Investigation of the nanodomain structure formation by piezoelectric force microscopy and Raman confocal microscopy in LiNbO3 and LiTaO3 crystals, JOURNAL OF APPLIED PHYSICS 110 (5), 052013 (2011).

23. Alikin D.O., Shishkin E.I., Nikolaeva E.V., Shur V.Ya., Sarmanova M.F., Ievlev A.V., Nebogatikov M.S. and Gavrilov N.V., Formation of Self-Assembled Domain Structures in Lithium Niobate Modified by Ar Ions Implantation, FERROELECTRICS 399 (1), 35-42 (2010).

24. Ievlev A.V., Nikolaeva E.V., Shishkin E.I. and Shur V.Ya. Shape of Local Hysteresis Loops Measured by Means of Piezoresponse Force Microscopy, FERROELECTRICS 398 (1), 26-33 (2010)

25. Shishkin E.I., Ievlev A.V., Nikolaeva E.V., Nebogatikov M.S. and Shur V.Ya., Local Study of Polarization Reversal Kinetics in Ferroelectric Crystals Using Scanning Probe Microscopy FERROELECTRICS 374 (1), 26-32 (2008).

Facilities Used

Environmental Atomic Force Microscopes (AFM) at Center for Nanophase Material Sciences (CNMS)

User Facility