Péter Vancsó
Péter Vancsó
Institute of Technical Physics and Materials Science, Centre for Energy Research
Verified email at
Cited by
Cited by
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
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
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
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
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
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
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
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
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
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
Anisotropic dynamics of charge carriers in graphene
GI Márk, P Vancsó, C Hwang, P Lambin, LP Biró
Physical Review B 85 (12), 125443, 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
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
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
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
Interaction effects in a chaotic graphene quantum billiard
I Hagymási, P Vancsó, A Pálinkás, Z Osváth
Physical Review B 95 (7), 075123, 2017
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
Forming electronic waveguides from graphene grain boundaries
GI Márk, P Vancsó, P Lambin, C Hwang, LP Biro
Journal of Nanophotonics 6 (1), 061718, 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
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
The system can't perform the operation now. Try again later.
Articles 1–20