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Ivan Verzhbitskiy
Ivan Verzhbitskiy
Institute of Materials Research and Engineering, Singapore
Verified email at imre.a-star.edu.sg
Title
Cited by
Cited by
Year
Synthesis of structurally well-defined and liquid-phase-processable graphene nanoribbons
A Narita, X Feng, Y Hernandez, SA Jensen, M Bonn, H Yang, ...
Nature chemistry 6 (2), 126-132, 2014
5532014
Raman study on defective graphene: Effect of the excitation energy, type, and amount of defects
A Eckmann, A Felten, I Verzhbitskiy, R Davey, C Casiraghi
Physical Review B 88 (3), 035426, 2013
3662013
Molecularly thin two-dimensional hybrid perovskites with tunable optoelectronic properties due to reversible surface relaxation
K Leng, I Abdelwahab, I Verzhbitskiy, M Telychko, L Chu, W Fu, X Chi, ...
Nature materials 17 (10), 908-914, 2018
3492018
Evidence for Fast Interlayer Energy Transfer in MoSe2/WS2 Heterostructures
D Kozawa, A Carvalho, I Verzhbitskiy, F Giustiniano, Y Miyauchi, S Mouri, ...
Nano letters 16 (7), 4087-4093, 2016
2592016
Colossal ultraviolet photoresponsivity of few-layer black phosphorus
J Wu, GKW Koon, D Xiang, C Han, CT Toh, ES Kulkarni, I Verzhbitskiy, ...
ACS nano 9 (8), 8070-8077, 2015
2432015
Chemical stabilization of 1T′ phase transition metal dichalcogenides with giant optical Kerr nonlinearity
SJR Tan, I Abdelwahab, Z Ding, X Zhao, T Yang, GZJ Loke, H Lin, ...
Journal of the American Chemical Society 139 (6), 2504-2511, 2017
2012017
Controlling the magnetic anisotropy in Cr₂Ge₂Te₆ by electrostatic gating
IA Verzhbitskiy, H Kurebayashi, H Cheng, J Zhou, S Khan, YP Feng, ...
Nature Electronics 3, 460-465, 2020
191*2020
Bottom-up synthesis of liquid-phase-processable graphene nanoribbons with near-infrared absorption
A Narita, IA Verzhbitskiy, W Frederickx, KS Mali, SA Jensen, MR Hansen, ...
Acs Nano 8 (11), 11622-11630, 2014
1732014
Exciton-plasmon coupling and electromagnetically induced transparency in monolayer semiconductors hybridized with Ag nanoparticles
Z Weijie, W Shunfeng, L Bo, V Ivan, L Shisheng, G Francesco, K Daichi, ...
arXiv preprint arXiv:1601.05573, 2016
1512016
Engineering bandgaps of monolayer MoS2 and WS2 on fluoropolymer substrates by electrostatically tuned many-body effects
B Liu, W Zhao, Z Ding, I Verzhbitskiy, L Li, J Lu, J Chen, G Eda, KP Loh
arXiv preprint arXiv:1604.07919, 2016
1462016
Raman scattering efficiency of graphene
P Klar, E Lidorikis, A Eckmann, IA Verzhbitskiy, AC Ferrari, C Casiraghi
Physical Review B 87 (20), 205435, 2013
1192013
Electroluminescent devices based on 2D semiconducting transition metal dichalcogenides
J Wang, I Verzhbitskiy, G Eda
Advanced Materials 30 (47), 1802687, 2018
1162018
Raman fingerprints of atomically precise graphene nanoribbons
IA Verzhbitskiy, MD Corato, A Ruini, E Molinari, A Narita, Y Hu, ...
Nano letters 16 (6), 3442-3447, 2016
1142016
Giant gate-tunable bandgap renormalization and excitonic effects in a 2D semiconductor
Z Qiu, M Trushin, H Fang, I Verzhbitskiy, S Gao, E Laksono, M Yang, ...
Science advances 5 (7), eaaw2347, 2019
972019
Efficient carrier-to-exciton conversion in field emission tunnel diodes based on MIS-type van der Waals heterostack
S Wang, J Wang, W Zhao, F Giustiniano, L Chu, I Verzhbitskiy, ...
Nano letters 17 (8), 5156-5162, 2017
912017
Characterization of the second-and third-harmonic optical susceptibilities of atomically thin tungsten diselenide
HG Rosa, YW Ho, I Verzhbitskiy, MJFL Rodrigues, T Taniguchi, ...
Scientific reports 8 (1), 10035, 2018
792018
Giant second-harmonic generation in ferroelectric NbOI2
I Abdelwahab, B Tilmann, Y Wu, D Giovanni, I Verzhbitskiy, M Zhu, ...
Nature Photonics 16 (9), 644-650, 2022
762022
Determination of Crystal Axes in Semimetallic T′‐MoTe2 by Polarized Raman Spectroscopy
J Wang, X Luo, S Li, I Verzhbitskiy, W Zhao, S Wang, SY Quek, G Eda
Advanced Functional Materials 27 (14), 1604799, 2017
572017
Chalcogenide nanosheets: optical signatures of many-body effects and electronic band structure
I Verzhbitskiy, G Eda
Inorganic Nanosheets and Nanosheet-Based Materials: Fundamentals and …, 2017
52*2017
Electron tunneling at the molecularly thin 2D perovskite and graphene van der Waals interface
K Leng, L Wang, Y Shao, I Abdelwahab, G Grinblat, I Verzhbitskiy, R Li, ...
Nature Communications 11 (1), 5483, 2020
412020
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