S
Sergei V. Kalinin
Researcher at Oak Ridge National Laboratory
Publications - 1069
Citations - 43341
Sergei V. Kalinin is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Ferroelectricity & Piezoresponse force microscopy. The author has an hindex of 95, co-authored 999 publications receiving 37022 citations. Previous affiliations of Sergei V. Kalinin include Southern Illinois University Carbondale & Louisiana State University.
Papers
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Deep Learning for Atomically Resolved Imaging
TL;DR: In this paper, the authors argue that one of the most promising methods for creating an AI-powered microscope is based on deep neural networks, and they propose a method for creating a real-time, physics-guided analysis of the very large amount of data generated by modern day microscopes.
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Materials and Devices with Probes and Beams: Down to the Atomic Level and Back Up
Sergei V. Kalinin,Ondrej Dyck +1 more
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Correlation between corrugation-induced flexoelectric polarization and conductivity of low-dimensional transition metal dichalcogenides
Anna N. Morozovska,Eugene A. Eliseev,Hanna V. Shevliakova,Hanna V. Shevliakova,Yaroslava Yu. Lopatina,Galina I. Dovbeshko,Maya D. Glinchuk,Yunseok Kim,Sergei V. Kalinin +8 more
TL;DR: In this article, the elastic and electric fields, flexoelectric polarization and free charge density for a TMD nanoflake placed on a rough substrate with a sinusoidal profile of the corrugation using finite element modelling were explored.
Posted Content
Self-Assembled Room Temperature Multiferroic BiFeO3-LiFe5O8 Nanocomposites
Yogesh Sharma,Radhe Agarwal,Liam Collins,Qiang Zheng,Anton V. Ivelev,Raphaël P. Hermann,Valentino R. Cooper,Santosh Kc,Ilia N. Ivanov,Ram S. Katiyar,Sergei V. Kalinin,Ho Nyung Lee,Seungbum Hong,Thomas Z. Ward +13 more
TL;DR: In this article, a new room temperature multiferroic nanocomposite comprised of an ordered ferrimagnetic spinel LiFe5O8 (LFO) and a ferroelectric perovskite BiFeO3 (BFO) is presented.
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Super-resolution and signal separation in contact Kelvin probe force microscopy of electrochemically active ferroelectric materials
Maxim Ziatdinov,Dohyung Kim,Sabine M. Neumayer,Liam Collins,Mahshid Ahmadi,Rama K. Vasudevan,Stephen Jesse,Myung Hyun Ann,Jong H. Kim,Sergei V. Kalinin +9 more
TL;DR: In this paper, Gaussian processes are used to achieve super-resolution in the contact Kelvin probe force microscopy (cKPFM) signal, effectively extrapolating across the spatial and parameter space.