2026 Eugene A. Eliseev: Materials Science Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Materials Science	67	5197	5027	1	1	348	13740

Discipline name

D-Index

World Ranking

Current World Ranking

National Ranking

Current National Ranking

Publications

Citations

Materials Science

5197

5027

348

13740

Overview

Eugene A. Eliseev is affiliated with the Frantsevich Institute for Problems in Materials Science in Ukraine. Their research centers primarily on materials science and engineering, covering extensive studies in materials chemistry, electronic, optical, and magnetic materials, biomedical engineering, electrical and electronic engineering, and atomic and molecular physics and optics.

Their published works encompass leading topics such as ferroelectric and piezoelectric materials, multiferroics and related materials, acoustic wave resonator technologies, ferroelectric and negative capacitance devices, semiconductor materials and devices, advanced sensor and energy harvesting materials, and machine learning in materials science.

Significant papers from Eugene A. Eliseev's portfolio include:

Highly enhanced ferroelectricity in HfO ₂ -based ferroelectric thin film by light ion bombardment, 2022, Science
Piezoelectric domain walls in van der Waals antiferroelectric CuInP2Se6, 2020, Nature Communications
Hypothesis Learning in Automated Experiment: Application to Combinatorial Materials Libraries, 2022, Advanced Materials
Ferroelectricity in hafnia controlled via surface electrochemical state, 2023, Nature Materials
Multi-objective Bayesian optimization of ferroelectric materials with interfacial control for memory and energy storage applications, 2021, arXiv (Cornell University)

Frequent co-authors in Eugene A. Eliseev's research include Anna N. Morozovska, Sergei V. Kalinin, Yulian M. Vysochanskii, Kyle P. Kelley, and D. R. Evans. These collaborations have supported numerous papers throughout their career.

Their most common publication venues reflect a broad engagement with both preprint servers and peer-reviewed journals: arXiv (Cornell University), Physical Review B, Physical Review Applied, SSRN Electronic Journal, and Acta Materialia.

Best Publications

Nanoscale mapping of ion diffusion in a lithium-ion battery cathode

N. Balke;S. Jesse;A. N. Morozovska;E. Eliseev

654
Citations
Observation of a periodic array of flux-closure quadrants in strained ferroelectric PbTiO3 films

Y. L. Tang;Y. L Zhu;Xiuliang Ma;Albina Y Borisevich

617
Citations
CuInP2S6 room temperature layered ferroelectric

Alex Belianinov;Qian He;Andrius Dziaugys;Petro Maksymovych

484
Citations
Enhanced electric conductivity at ferroelectric vortex cores in BiFeO 3

Nina Balke;Benjamin Winchester;Wei Ren;Ying Hao Chu

427
Citations
Direct imaging of the spatial and energy distribution of nucleation centres in ferroelectric materials.

Stephen Jesse;Brian J. Rodriguez;Samrat Choudhury;Arthur P. Baddorf

346
Citations
Spontaneous flexoelectric/flexomagnetic effect in nanoferroics

Eugene A. Eliseev;Anna N. Morozovska;Maya D. Glinchuk;R. Blinc

328
Citations
Static conductivity of charged domain walls in uniaxial ferroelectric semiconductors

E. A. Eliseev;A. N. Morozovska;G. S. Svechnikov;Venkatraman Gopalan

276
Citations
Nanoscale Electromechanics of Ferroelectric and Biological Systems: A New Dimension in Scanning Probe Microscopy

Sergei V. Kalinin;Brian J. Rodriguez;Stephen Jesse;Edgar Karapetian

260
Citations
Direct observation of ferroelectric field effect and vacancy-controlled screening at the BiFeO3/LaxSr1-xMnO3 interface.

Young-Min Kim;Anna Morozovska;Eugene Eliseev;Mark P. Oxley

243
Citations
Highly enhanced ferroelectricity in HfO2-based ferroelectric thin film by light ion bombardment

Unknown

216
Citations
Ferroelectricity enhancement in confined nanorods: Direct variational method

Anna N. Morozovska;Eugene A. Eliseev;Maya D. Glinchuk

205
Citations
Phase transitions induced by confinement of ferroic nanoparticles

Anna N. Morozovska;Maya D. Glinchuk;Eugene A. Eliseev

193
Citations
Atomic-scale evolution of modulated phases at the ferroelectric-antiferroelectric morphotropic phase boundary controlled by flexoelectric interaction.

A. Y. Borisevich;E. A. Eliseev;A. N. Morozovska;C. J. Cheng

183
Citations
Local probing of ionic diffusion by electrochemical strain microscopy: Spatial resolution and signal formation mechanisms

A. N. Morozovska;Eugene Eliseev;Nina Balke;Sergei Kalinin

182
Citations
Tunable metallic conductance in ferroelectric nanodomains.

Peter Maksymovych;Anna N. Morozovska;Pu Yu;Eugene A. Eliseev

180
Citations
Intermittency, quasiperiodicity and chaos in probe-induced ferroelectric domain switching

A. V. Ievlev;S. Jesse;A. N. Morozovska;E. Strelcov

160
Citations
Domain Wall Conduction and Polarization‐Mediated Transport in Ferroelectrics

Rama K. Vasudevan;Weida Wu;Jeffrey R. Guest;Arthur P. Baddorf

155
Citations
Domain Wall Geometry Controls Conduction in Ferroelectrics

R. K. Vasudevan;A. N. Morozovska;E. A. Eliseev;J. Britson

149
Citations
Thermodynamics of electromechanically coupled mixed ionic-electronic conductors: Deformation potential, Vegard strains, and flexoelectric effect

A. N. Morozovska;E. A. Eliseev;A. K. Tagantsev;S. L. Bravina

142
Citations
Flexoelectricity and Ferroelectric Domain Wall Structures: Phase-Field Modeling and DFT Calculations

Yijia Gu;Menglei Li;Menglei Li;Anna N. Morozovska;Yi Wang

141
Citations
Strain-Induced Disorder in Ferroic Nanocomposites

Klaus D. Sattler;Anna N. Morozovska;Eugene A. Eliseev

1
Citations