Oleg Yazyev
Associate Professor
Web site: Web site: https://sph.epfl.ch/
EPFL SB IPHYS C3MP
PH H2 497 (Bâtiment PH)
Station 3
1015 Lausanne
Web site: Web site: https://c3mp.epfl.ch/
Biography
Prof. Oleg Yazyev (Олег Язев) was born in Simferopol, Crimean peninsula. He obtained his degree in chemistry from Moscow State University in 2003. He then joined Ecole Polytechnique Fédérale de Lausanne (EPFL) completing his PhD thesis in chemistry and chemical engineering in 2007. Next two years he has spent as a postdoctoral fellow at the Institute of Theoretical Physics (ITP) and the Institute for Numerical Research in the Physics of Materials (IRRMA) of the same institution. In 2009-2011 he was a postdoctoral fellow at the Department of Physics of the University of California, Berkeley and the Lawrence Berkeley National Laboratory. In September 2011 he started an independent research group supported by the Swiss National Science Foundation professorship grant. In 2012 he was awarded an ERC Starting grant. His current research focuses on theoretical and computational physics of two-dimensional and topological materials with strong emphasis on their prospective technological applications.ResearcherID profile of Oleg Yazyev
Google Scholar profile of Oleg Yazyev
Awards
SNSF Professorship
2011
ERC Starting Grant
2012
University Latsis Award EPFL
2018
Publications
Selected publications
| G. Autès, A. Isaeva, L. Moreschini, J. C. Johannsen, A. Pisoni, R. Mori, W. Zhang, T. G. Filatova, A. N. Kuznetsov, L. Forró, W. Van den Broek, Y. Kim, K. S. Kim, A. Lanzara, J. D. Denlinger, E. Rotenberg, A. Bostwick, M. Grioni, and O. V. Yazyev Nature Materials 15, 154 (2016) |
A novel quasi-one-dimensional topological insulator in bismuth iodide β-Bi4I4 |
| G. Autès, D. Gresch, M. Troyer, A. A. Soluyanov and O. V. Yazyev Phys. Rev. Lett. 117, 066402 (2016) |
Robust Type-II Weyl Semimetal Phase in Transition Metal Diphosphides XP2 (X=Mo, W) |
| O. V. Yazyev and Y. P. Chen Nature Nanotechnology 9, 755 (2014) |
Polycrystalline graphene and other two-dimensional materials |
| O. V. Yazyev and S. G. Louie Nature Materials 9, 806 (2010) |
Electronic transport in polycrystalline graphene |
| C. Tao, L. Jiao, O. V. Yazyev, Y.-C. Chen, J. Feng, X. Zhang, R. B. Capaz, J. M. Tour, A. Zettl, S. G. Louie, H. Dai, and M. F. Crommie Nature Physics 7, 616 (2011) |
Spatially resolving edge states of chiral graphene nanoribbons |
| F. Gargiulo and O. V. Yazyev Nano Lett. 14, 250 (2014) |
Topological Aspects of Charge-Carrier Transmission across Grain Boundaries in Graphene |
| O. V. Yazyev, J. E. Moore, and S. G. Louie Phys. Rev. Lett. 105, 266806 (2010) |
Spin Polarization and Transport of Surface States in the Topological Insulators Bi2Se3 and Bi2Te3 from First Principles |
| O. V. Yazyev and S. G. Louie Phys. Rev. B 81, 195420 (2010) |
Topological defects in graphene: Dislocations and grain boundaries |
| O. V. Yazyev Rep. Prog. Phys. 73, 056501 (2010) |
Emergence of magnetism in graphene materials and nanostructures |
| O. V. Yazyev and L. Helm Phys. Rev. B 75, 125408 (2007) |
Defect-induced magnetism in graphene |
| O. V. Yazyev Phys. Rev. Lett. 101, 037203 (2008) |
Magnetism in Disordered Graphene and Irradiated Graphite |
| O. V. Yazyev and M. I. Katsnelson Phys. Rev. Lett. 100, 047209 (2008) |
Magnetic Correlations at Graphene Edges: Basis for Novel Spintronics Devices |
| O. V. Yazyev Nano Lett. 8, 1011 (2008) |
Hyperfine Interactions in Graphene and Related Carbon Nanostructures |
Teaching & PhD
Teaching
Physics
PhD Students
Félisaz Johan Claudius Jean-Paul, Liu Xiaoqian, Malanyuk Oleg, Zhang Hanning,Past EPFL PhD Students
Baral Priya Ranjan , Cernevics Kristians , Gargiulo Fernando , Guan Yifei , Pasquier Diego José , Pizzochero Michele , Pulkin Artem , Virk Naunidh Singh ,Courses
Atomic, molecular physics and optics
This course presents the fundamental physics of atoms and molecules, their structure and their interaction with electromagnetic fields.
Quantum physics III
To introduce several advanced topics in quantum physics, including
semiclassical approximation, path integral, scattering theory, and
relativistic quantum mechanics