Follow
Amirhasan Nourbakhsh
Amirhasan Nourbakhsh
Verified email at mit.edu - Homepage
Title
Cited by
Cited by
Year
Transport Properties of a MoS2/WSe2 Heterojunction Transistor and Its Potential for Application
A Nourbakhsh, A Zubair, MS Dresselhaus, T Palacios
Nano letters 16 (2), 1359-1366, 2016
5042016
MoS2 Field-Effect Transistor with Sub-10 nm Channel Length
A Nourbakhsh, A Zubair, RN Sajjad, A Tavakkoli KG, W Chen, S Fang, ...
Nano letters 16 (12), 7798-7806, 2016
4582016
Bandgap opening in oxygen plasma-treated graphene
A Nourbakhsh, M Cantoro, T Vosch, G Pourtois, F Clemente, ...
Nanotechnology 21 (43), 435203, 2010
3802010
Subthreshold swing improvement in MoS 2 transistors by the negative-capacitance effect in a ferroelectric Al-doped-HfO 2/HfO 2 gate dielectric stack
A Nourbakhsh, A Zubair, S Joglekar, M Dresselhaus, T Palacios
Nanoscale 9 (18), 6122-6127, 2017
1532017
Tuning the Fermi Level of SiO2-Supported Single-Layer Graphene by Thermal Annealing
A Nourbakhsh, M Cantoro, A Klekachev, F Clemente, B Soree, ...
The Journal of Physical Chemistry C 114 (15), 6894-6900, 2010
1042010
Hot electron transistor with van der Waals base-collector heterojunction and high-performance GaN emitter
A Zubair, A Nourbakhsh, JY Hong, M Qi, Y Song, D Jena, J Kong, ...
Nano letters 17 (5), 3089-3096, 2017
802017
Graphene transistors and photodetectors
AV Klekachev, A Nourbakhsh, I Asselberghs, AL Stesmans, MM Heyns, ...
The Electrochemical Society Interface 22 (1), 63, 2013
722013
Single layer vs bilayer graphene: a comparative study of the effects of oxygen plasma treatment on their electronic and optical properties
A Nourbakhsh, M Cantoro, AV Klekachev, G Pourtois, T Vosch, J Hofkens, ...
The Journal of Physical Chemistry C 115 (33), 16619-16624, 2011
712011
Highly efficient and stable MoS 2 FETs with reversible n-doping using a dehydrated poly (vinyl-alcohol) coating
CJL de la Rosa, A Nourbakhsh, M Heyne, I Asselberghs, C Huyghebaert, ...
Nanoscale 9 (1), 258-265, 2017
532017
Morphology optimization of CCVD-synthesized multiwall carbon nanotubes, using statistical design of experiments
A Nourbakhsh, B Ganjipour, M Zahedifar, E Arzi
Nanotechnology 18 (11), 115715, 2007
442007
Impact of Al2O3 Passivation on the Photovoltaic Performance of Vertical WSe2 Schottky Junction Solar Cells
E McVay, A Zubair, Y Lin, A Nourbakhsh, T Palacios
ACS Applied Materials & Interfaces 12 (52), 57987-57995, 2020
382020
Diameter optimization of VLS-synthesized ZnO nanowires, using statistical design of experiment
S Shafiei, A Nourbakhsh, B Ganjipour, M Zahedifar, G Vakili-Nezhaad
Nanotechnology 18 (35), 355708, 2007
362007
Modified, semiconducting graphene in contact with a metal: Characterization of the Schottky diode
A Nourbakhsh, M Cantoro, A Hadipour, T Vosch, MH van der Veen, ...
Applied physics letters 97 (16), 2010
342010
15-nm channel length MoS2 FETs with single- and double-gate structures
A Nourbakhsh, A Zubair, S Huang, X Ling, MS Dresselhaus, J Kong, ...
2015 Symposium on VLSI Technology (VLSI Technology), T28-T29, 2015
312015
Graphene oxide monolayers as atomically thin seeding layers for atomic layer deposition of metal oxides
Amirhasan Nourbakhsh, Christoph Adelmann, Yi Song, Chang Seung Lee, Inge ...
Nanoscale, 2015
262015
Bilayer Graphene Tunneling-FET for sub-0.2 V digital CMOS logic applications
TK Agarwal, A Nourbakhsh, P Raghavan, I Radu, S Gendt, M Verhelst, ...
Electron Device Letters, IEEE, 2014
222014
Graphene-based semiconductor device
A Nourbakhsh, M Cantoro, C Huyghebaert, M Heyns, S DeGendt
US Patent 9,337,273, 2016
212016
Graphene based field effect transistor
A Nourbakhsh, M Heyns, SD Gendt
US Patent US20140299841 A1, 2014
202014
Bilayer graphene tunneling field effect transistor
A Nourbakhsh, B Soree, M Heyns, TK Agarwal
US Patent 9,293,536, 2016
182016
A high precision method for length-based separation of carbon nanotubes using bio-conjugation, SDS-PAGE and silver staining
Z Borzooeian, ME Taslim, O Ghasemi, S Rezvani, G Borzooeian, ...
PLoS One 13 (6), e0197972, 2018
162018
The system can't perform the operation now. Try again later.
Articles 1–20