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Education
Nizhny Novgorod State University, Russia B.Sc./M.Sc. 1991 Radiophysics and Electronics (Summa Cum Laude)
Dresden University of Technology, Germany, Ph.D. 2000, Materials Science (Magna Cum Laude)
Professional Experience
2016 – present Principal Researcher, CICECO-Aveiro Institute of Materials, Department of Physics, University of Aveiro, Aveiro, Portugal
2009–2016 Research Assistant Professor, Joint Faculty, Oak Ridge National Laboratory/University of Tennessee, Center for Nanophase Materials Sciences, Oak Ridge National Laboratory and Department of Physics and Astronomy, University of Tennessee, Knoxville, TN, USA
2006–2009 Research Associate, Duke University, Durham, NC, USA
2003–2006 Post Doctoral Fellow, Georgetown University , Washington, DC, USA
2001–2003 Post Doctoral Research Associate, University of Maryland College Park, MD, USA
1997–2001 Scientific Employee, Dresden University of Technology, Germany
1991–1997 Junior Research Scientist, Institute of Applied Physics / Institute for Physics of Microstructures, Russian Academy of Sciences, Russia
Professional and Synergistic Activities
Referee for Nature Nanotechnology, Physical Review Letters, Physical Review B, ACS Nano, Applied Physics Letters, and other journals.
Honors and Awards
2017 Tan Chin Tuan Exchange Fellowship in Engineering, Nanyang Technological University, Singapore
European Materials Research Society (E-MRS) Graduate Student Award (1998).
Research Synopsis
- Application and development of various scanning probe microscopy imaging modalities for nanoscale functional characterization of materials.
- Near-field scanning microwave microscopy. We apply and develop near-field scanning microwave microscopy to study local electrical properties of a broad class of material: dielectrics, semiconductors, two-dimensional conductors, including in-situ imaging in fluids.
- Physics of nanoscale phase transitions and heat transport
- Materials for information storage
- Materials for energy storage and conversion
- In-situ Scanning Probe Microscopy of Complex Oxides. In-situ UHV scanning probe microscopy techniques are used to study surfaces of complex oxide thin films grown by Pulsed Laser Deposition / Laser MBE.
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Mn-Doped BaTiO3 Ceramics: Thermal and Electrical Properties for Multicaloric ApplicationsSemenov, A; Dedyk, A; Mylnikov, I; Pakhomov, O; Es'kov, A; Anokhin, A; Krylov, V; Burovikhin, A; Pavlova, Y; Tselev, A; Kholkin, A
2019, MATERIALS, 12, 21,
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An atomic force microscopy mode for nondestructive electromechanical studies and its application to diphenylalanine peptide nanotubesKalinin, A; Atepalikhin, V; Pakhomov, O; Kholkin, AL; Tselev, A
2018, ULTRAMICROSCOPY, 185, 49-54.
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Surface reconstructions and modified surface states in La1-xCaxMnO3Vasudevan, RK; Dixit, H; Tselev, A; Qiao, L; Meyer, TL; Cooper, VR; Baddorf, AP; Lee, HN; Ganesh, P; Kalinin, SV
2018, PHYSICAL REVIEW MATERIALS, 2, 10,
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A self-forming nanocomposite concept for ZnO-based thermoelectricsZakharchuk, KV; Widenmeyer, M; Alikin, DO; Xie, WJ; Populoh, S; Mikhalev, SM; Tselev, A; Frade, JR; Weidenkaff, A; Kovalevsky, AV
2018, JOURNAL OF MATERIALS CHEMISTRY A, 6, 27, 13386-13396.
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In-situ near-field probe microscopy of plasma processingTselev, A; Fagan, J; Kolmakov, A
2018, APPLIED PHYSICS LETTERS, 113, 26,
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In Aqua Electrochemistry Probed by XPEEM: Experimental Setup, Examples, and ChallengesNemsak, S; Strelcov, E; Guo, HX; Hoskins, BD; Duchon, T; Mueller, DN; Yulaev, A; Vlassiouk, I; Tselev, A; Schneider, CM; Kolmakov, A
2018, TOPICS IN CATALYSIS, 61, 20, 2195-2206.
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Quantification of in-contact probe-sample electrostatic forces with dynamic atomic force microscopyBalke, N; Jesse, S; Carmichael, B; Okatan, MB; Kravchenko, II; Kalinin, SV; Tselev, A
2017, NANOTECHNOLOGY, 28, 6,
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Enhancement of local piezoelectric properties of a perforated ferroelectric thin film visualized via piezoresponse force microscopyIvanov, MS; Sherstyuk, NE; Mishina, ED; Khomchenko, VA; Tselev, A; Mukhortov, VM; Paixao, JA; Kholkin, AL
2017, JOURNAL OF PHYSICS D-APPLIED PHYSICS, 50, 42,
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Electromechanical properties of electrostrictive CeO2:Gd membranes: Effects of frequency and temperatureUshakov, AD; Mishuk, E; Makagon, E; Alikin, DO; Esin, AA; Baturin, IS; Tselev, A; Shur, VY; Lubomirsky, I; Kholkin, AL
2017, APPLIED PHYSICS LETTERS, 110, 14,
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Quantification of surface displacements and electromechanical phenomena via dynamic atomic force microscopyBalke, N; Jesse, S; Yu, P; Carmichael, B; Kalinin, SV; Tselev, A
2016, NANOTECHNOLOGY, 27, 42,
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Nanoscale Ferroelectricity in Crystalline gamma-GlycineHeredia, A; Meunier, V; Bdikin, IK; Gracio, J; Balke, N; Jesse, S; Tselev, A; Agarwal, PK; Sumpter, BG; Kalinin, SV; Kholkin, AL
2012, ADVANCED FUNCTIONAL MATERIALS, 22, 14, 2996-3003.
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Landau-Ginzburg-Devonshire Theory for domain wall conduction and observation of microwave conduction of domain wallsA. Tselev, A. V. Ievlev, R. Vasudevan, S. V. Kalinin, P. Maksymovych, and A. Morozovska
In Dennis Meier, Jan Seidel, Marty Gregg, and Ramamoorthy Ramesh (Eds.), Domain Walls : From Fundamental Properties to Nanotechnology Concepts
2020, Oxford, United Kingdom : Oxford University Press.
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Nanoscale ferroelectric switching: A method to inject and study non-equilibrium domain walls A.V. Ievlev, A. Tselev, R. Vasudevan, S.V. Kalinin, A. Morozovska, and P. Maksymovych
In Dennis Meier, Jan Seidel, Marty Gregg, and Ramamoorthy Ramesh (Eds.), Domain Walls: From Fundamental Properties to Nanotechnology Concepts
2020, 245 Oxford, United Kingdom: Oxford University Press.
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Functional material properties of oxide thin films probed by atomic force microscopy on the nanoscaleN.Balke, A.Tselev
In Nini Pryds, Vincenzo Esposito (Eds.), Metal Oxide-Based Thin Film Structures
2018, 181-201. Elsevier.
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In-Depth Look into Internal Functioning of a Material for Future Batteries
