|Systematic study of structural, electronic, and optical properties of atomic-scale defects in the two-dimensional transition metal dichalcogenides M X 2 (M= Mo, W; X= S, Se, Te)|
S Haldar, H Vovusha, MK Yadav, O Eriksson, B Sanyal
Physical Review B 92 (23), 235408, 2015
|A systematic study of electronic structure from graphene to graphane|
P Chandrachud, BS Pujari, S Haldar, B Sanyal, DG Kanhere
Journal of Physics: Condensed Matter 22 (46), 465502, 2010
|Improved gas sensing activity in structurally defected bilayer graphene|
Y Hajati, T Blom, SHM Jafri, S Haldar, S Bhandary, MZ Shoushtari, ...
Nanotechnology 23 (50), 505501, 2012
|Metal-free photochemical silylations and transfer hydrogenations of benzenoid hydrocarbons and graphene|
R Papadakis, H Li, J Bergman, A Lundstedt, K Jorner, R Ayub, S Haldar, ...
Nature communications 7, 12962, 2016
|Influence of electron correlation on the electronic structure and magnetism of transition-metal phthalocyanines|
IE Brumboiu, S Haldar, J Lüder, O Eriksson, HC Herper, B Brena, ...
Journal of chemical theory and computation 12 (4), 1772-1785, 2016
|Site-selective local fluorination of graphene induced by focused ion beam irradiation|
H Li, L Daukiya, S Haldar, A Lindblad, B Sanyal, O Eriksson, D Aubel, ...
Scientific reports 6, 19719, 2016
|Energetic stability, STM fingerprints and electronic transport properties of defects in graphene and silicene|
S Haldar, RG Amorim, B Sanyal, RH Scheicher, AR Rocha
RSC Advances 6 (8), 6702-6708, 2016
|A real-space study of random extended defects in solids: Application to disordered Stone–Wales defects in graphene|
S Chowdhury, S Baidya, D Nafday, S Halder, M Kabir, B Sanyal, ...
Physica E: Low-dimensional Systems and Nanostructures 61, 191-197, 2014
|The dipole moment of the spin density as a local indicator for phase transitions|
D Schmitz, C Schmitz-Antoniak, A Warland, M Darbandi, S Haldar, ...
Scientific reports 4, 5760, 2014
|Skyrmion lifetime in ultrathin films|
S von Malottki, PF Bessarab, S Haldar, A Delin, S Heinze
Phys. Rev. B 99 (6), 060409(R), 2019
|Fe n (n= 1–6) clusters chemisorbed on vacancy defects in graphene: Stability, spin-dipole moment, and magnetic anisotropy|
S Haldar, BS Pujari, S Bhandary, F Cossu, O Eriksson, DG Kanhere, ...
Physical Review B 89 (20), 205411, 2014
|Magnetic impurities in graphane with dehydrogenated channels|
S Haldar, DG Kanhere, B Sanyal
Physical Review B 85 (15), 155426, 2012
|Comparative study of electronic and magnetic properties of iron and cobalt phthalocyanine molecules physisorbed on two-dimensional MoS and graphene|
S Haldar, S Bhandary, H Vovusha, B Sanyal
Physical Review B 98 (8), 085440, 2018
|First-principles prediction of sub-10-nm skyrmions in Pd/Fe bilayers on Rh(111)|
S Haldar, S von Malottki, S Meyer, PF Bessarab, S Heinze
Physical Review B 98 (6), 060413(R), 2018
|Designing fe nanostructures at graphene/h-BN interfaces|
S Haldar, P Srivastava, O Eriksson, P Sen, B Sanyal
The Journal of Physical Chemistry C 117 (42), 21763-21771, 2013
|Preparation and electronic properties of clean superconducting Nb (110) surfaces|
AB Odobesko, S Haldar, S Wilfert, J Hagen, J Jung, N Schmidt, P Sessi, ...
Phys. Rev. B 99 (11), 115437, 2019
|Direct writing of lateral fluorographene nanopatterns with tunable bandgaps and its application in new generation of moiré superlattice|
H Li, T Duan, S Haldar, B Sanyal, O Eriksson, H Jafri, S Hajjar-Garreau, ...
Applied Physics Reviews 7 (1), 011403, 2020
|Role of higher-order exchange interactions for skyrmion stability|
S Paul, S Haldar, S von Malottki, S Heinze
Nature Communications 11 (1), 1-12, 2020
|Noncollinear spin density of an adatom on a magnetic surface|
S Haldar, S Heinze
Phys. Rev. B 98 (22), 220401(R), 2018
|Defects in graphene and its derivatives|
S Haldar, B Sanyal
GRAPHENE RESEARCH, 215, 2016