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Surender Pratap
Surender Pratap
Assistant Professor of Physics, Central University of Himachal Pradesh
Adresse e-mail validée de hpcu.ac.in - Page d'accueil
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Electronic, transport, magnetic, and optical properties of graphene nanoribbons and their optical sensing applications: A comprehensive review
S Kumar, S Pratap, V Kumar, RK Mishra, JS Gwag, B Chakraborty
Luminescence 38 (7), 909-953, 2023
392023
Transport properties of zigzag graphene nanoribbons in the confined region of potential well
S Pratap
Superlattices and Microstructures 100, 673-682, 2016
212016
Transmission and ldos in case of zgnr with and without magnetic field
S Pratap
Superlattices and Microstructures 104, 540-546, 2017
122017
Certain aspects of quantum transport in zigzag graphene nanoribbons
S Pratap, S Kumar, RP Singh
Frontiers in Physics 10, 940586, 2022
92022
Dirac fermions in zigzag graphene nanoribbon in a finite potential well
S Pratap, V Kumar
Physica B: Condensed Matter 614, 412916, 2021
92021
Aspects of electron transport in zigzag graphene nanoribbons
P Bhalla, S Pratap
International Journal of Modern Physics B 32 (12), 1850148, 2018
82018
Photoionization cross-section in a GaAs spherical quantum shell: the effect of parabolic confining electric potentials
M Tshipa, LK Sharma, S Pratap
The European Physical Journal B 94 (6), 129, 2021
62021
Studying the conductance and transport in low-dimensional graphene nano ribbon under ballistic regime
S Pratap, N Sarkar
AIP Conference Proceedings 1728 (1), 2016
62016
Recent development of two-dimensional tantalum dichalcogenides and their applications
S Pratap, N Joshi, R Trivedi, CS Rout, B Chakraborty
Micro and Nanostructures 181, 207627, 2023
52023
Application of the density matrix formalism for obtaining the channel density of a dual gate nanoscale ultra-thin mosfet and its comparison with the semi-classical approach
S Pratap, N Sarkar
International Journal of Nanoscience 19 (06), 2050010, 2020
52020
Edge states in zigzag graphene nanoribbons in a finite potential well
S Pratap
AIP Conference Proceedings 2220 (1), 2020
42020
A comparative study of carbon-based nanoribbons and MoS2-based nanoribbons for spintronics-based devices
S Kumar, S Pratap
Advances in Flexible and Printed Electronics: Materials, fabrication, and …, 2023
22023
Application of a self-consistent NEGF procedure to study the coherent transport with phase breaking scattering in low dimensional systems
S Pratap, N Sarkar
AIP Conference Proceedings 1724 (1), 2016
22016
Effects of vacancies on quantum transport of zigzag graphene nanoribbons
S Kumar, R Saklani, S Pratap, P Bhalla
Physica Scripta 99 (6), 065944, 2024
12024
Transition Energy For a Polar Quantum Disc with Conical Disclination in Parabolic Confining Electric Potential
V Kumar, S Pratap, M Tshipa
Journal of Condensed Matter 1 (02), 73-75, 2023
12023
Transport Properties and Sub-band Modulation of the SWCNT Based Nano-scale Transistors
S Pratap, N Sarkar
The Physics of Semiconductor Devices: Proceedings of IWPSD 2017, 155-162, 2019
12019
2D biphenylene: exciting properties, synthesis & applications
VK Kumar, S Pratap, B Chakraborty
Journal of Physics: Condensed Matter, 2025
2025
Optical transition rates of a polar quantum disc with conical disclination in a magnetic field: effects of some forms of the electric potential
V Kumar, S Pratap, M Tshipa, M Masale
The European Physical Journal Plus 139 (12), 1-11, 2024
2024
Combined effect of strain and intrinsic spin–orbit coupling on band gap engineering of GNRs: a first-principles study
S Kumar, S Pratap, R Trivedi, B Chakraborty
Journal of Physics: Condensed Matter 36 (48), 485401, 2024
2024
Ab-initio transport model to study the thermoelectric performance of MoS2, MoSe2, and WS2 monolayers by using Boltzmann transport equation
S Kumari, S Kumar, S Pratap, SS Kubakaddi
Journal of Physics: Condensed Matter 36 (31), 315501, 2024
2024
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