| Room temperature magnetic order on zigzag edges of narrow graphene nanoribbons GZ Magda, X Jin, I Hagymasi, P Vancso, Z Osvath, P Nemes-Incze, ... Nature 514, 608-611, 2014 | 676 | 2014 |
| Spontaneous doping of the basal plane of MoS2 single layers through oxygen substitution under ambient conditions J Pető, T Ollár, P Vancsó, ZI Popov, GZ Magda, G Dobrik, C Hwang, ... Nature chemistry 10 (12), 1246-1251, 2018 | 202 | 2018 |
| The intrinsic defect structure of exfoliated MoS2 single layers revealed by Scanning Tunneling Microscopy P Vancsó, GZ Magda, J Pető, JY Noh, YS Kim, C Hwang, LP Biró, ... Scientific reports 6 (1), 1-7, 2016 | 179 | 2016 |
| MoS2–Carbon Nanotube Hybrid Material Growth and Gas Sensing G Deokar, P Vancsó, R Arenal, F Ravaux, J Casanova‐Cháfer, E Llobet, ... Advanced Materials Interfaces, 1700801, 2017 | 58 | 2017 |
| Electronic transport through ordered and disordered graphene grain boundaries P Vancsó, GI Márk, P Lambin, A Mayer, YS Kim, C Hwang, LP Biró Carbon 64, 101-110, 2013 | 44 | 2013 |
| Electronic states of disordered grain boundaries in graphene prepared by chemical vapor deposition P Nemes-Incze, P Vancsó, Z Osváth, GI Márk, X Jin, YS Kim, C Hwang, ... Carbon 64, 178-186, 2013 | 44 | 2013 |
| Large area growth of vertically aligned luminescent MoS2 nanosheets G Deokar, NS Rajput, P Vancsó, F Ravaux, M Jouiad, D Vignaud, ... Nanoscale 9 (1), 277-287, 2017 | 37 | 2017 |
| Bilayered semiconductor graphene nanostructures with periodically arranged hexagonal holes DG Kvashnin, P Vancsó, LY Antipina, GI Márk, LP Biró, PB Sorokin, ... Nano Research 8 (4), 1250-1258, 2015 | 37 | 2015 |
| Moderate strain induced indirect bandgap and conduction electrons in MoS2 single layers J Pető, G Dobrik, G Kukucska, P Vancsó, AA Koós, J Koltai, ... npj 2D Materials and Applications 3 (1), 1-6, 2019 | 29 | 2019 |
| Transition metal chalcogenide single layers as an active platform for single-atom catalysis P Vancsó, ZI Popov, J Pető, T Ollár, G Dobrik, JS Pap, C Hwang, ... ACS Energy Letters 4 (8), 1947-1953, 2019 | 29 | 2019 |
| Anisotropic dynamics of charge carriers in graphene GI Márk, P Vancsó, C Hwang, P Lambin, LP Biró Physical Review B 85 (12), 125443, 2012 | 28 | 2012 |
| STM study of the MoS2 flakes grown on graphite: A model system for atomically clean 2D heterostructure interfaces AA Koós, P Vancsó, GZ Magda, Z Osváth, K Kertész, G Dobrik, C Hwang, ... Carbon 105, 408-415, 2016 | 26 | 2016 |
| Effect of the disorder in graphene grain boundaries: A wave packet dynamics study P Vancsó, GI Márk, P Lambin, A Mayer, C Hwang, LP Biró Applied Surface Science 291, 58-63, 2014 | 24 | 2014 |
| Signature of large-gap quantum spin Hall state in the layered mineral jacutingaite K Kandrai, P Vancsó, G Kukucska, J Koltai, G Baranka, Á Hoffmann, ... Nano letters 20 (7), 5207-5213, 2020 | 21 | 2020 |
| Interaction effects in a chaotic graphene quantum billiard I Hagymási, P Vancsó, A Pálinkás, Z Osváth Physical Review B 95 (7), 075123, 2017 | 13 | 2017 |
| Influence of Native Defects on the Electronic and Magnetic Properties of CVD Grown MoSe2 Single Layers AA Koós, P Vancsó, M Szendrő, G Dobrik, D Antognini Silva, ZI Popov, ... The Journal of Physical Chemistry C 123 (40), 24855-24864, 2019 | 12 | 2019 |
| Evidence for room temperature quantum spin Hall state in the layered mineral jacutingaite K Kandrai, G Kukucska, P Vancsó, J Koltai, G Baranka, ZE Horváth, ... arXiv preprint arXiv:1903.02458, 2019 | 8 | 2019 |
| Forming electronic waveguides from graphene grain boundaries GI Márk, P Vancsó, P Lambin, C Hwang, LP Biro Journal of Nanophotonics 6 (1), 061718, 2012 | 8 | 2012 |
| Stability of edge magnetism against disorder in zigzag MoS2 nanoribbons P Vancsó, I Hagymási, P Castenetto, P Lambin Physical Review Materials 3, 094003, 2019 | 7 | 2019 |
| Wave-packet dynamics study of the transport characteristics of perforated bilayer graphene nanoribbons VA Demin, DG Kvashnin, P Vancsó, GI Márk, LA Chernozatonskii JETP Letters 112 (5), 305-309, 2020 | 6 | 2020 |
Levente TapasztoCentre for Energy Research (EK-MFA)Подтвержден адрес электронной почты в домене mfa.kfki.hu
