P. V. Ratnikov, A. P. Silin, “Two-dimensional graphene electronics: current status and prospects”, UFN, 188:12 (2018), 1249–1287; Phys. Usp., 61:12 (2018), 1139

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Uspekhi Fizicheskikh Nauk, 2018, Volume 188, Number 12, Pages 1249–1287
DOI: https://doi.org/10.3367/UFNr.2017.11.038231 (Mi ufn6102)

This article is cited in 24 scientific papers (total in 28 papers)

REVIEWS OF TOPICAL PROBLEMS

Two-dimensional graphene electronics: current status and prospects

P. V. Ratnikov^a, A. P. Silin^b

^a Prokhorov General Physics Institute, Russian Academy of Sciences, Moscow
^b Lebedev Physical Institute, Russian Academy of Sciences, Moscow

Full-text PDF (3253 kB) Citations (28)

DOI: https://doi.org/10.3367/UFNr.2017.11.038231

Abstract: Graphene, a two-dimensional carbon material, is reviewed for how it is currently used in nanometer-scale electronics (nanoelectronics). The history of the discovery of graphene is briefly described. Theoretical work on graphene heterostructures is examined. The primary focus is on the practical use of graphene in nanoelectronics applications. Prospects for graphene and post-graphene nanoelectronics are discussed.

Funding agency	Grant number
Russian Science Foundation	16-12-10538
Foundation for the Development of Theoretical Physics and Mathematics BASIS
This study was supported by the Russian Science Foundation (grant no. 16-12-10538) and the Foundation for the Advancement of Theoretical Physics and Mathematics “BASIS”.

Received: August 8, 2017
Revised: October 20, 2017
Accepted: November 10, 2017

English version:
Physics–Uspekhi, 2018, Volume 61, Issue 12, Pages 1139–1174
DOI: https://doi.org/10.3367/UFNe.2017.11.038231

Bibliographic databases:

Document Type: Article

PACS: 68.65.Cd, 68.65.Pq, 73.21.Fg, 73.40.Gk, 73.50.-h, 85.30.Tv, 85.40.-e, 85.60.-q, 85.65.+h

Language: Russian

Citation: P. V. Ratnikov, A. P. Silin, “Two-dimensional graphene electronics: current status and prospects”, UFN, 188:12 (2018), 1249–1287; Phys. Usp., 61:12 (2018), 1139–1174

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Linking options:

https://www.mathnet.ru/eng/ufn6102

https://www.mathnet.ru/eng/ufn/v188/i12/p1249

This publication is cited in the following 28 articles:

Shihang Sun, Lu Yang, Yanshen Zhao, Huaidong Liu, Xingbin Wei, “Effect of strain and external electric field on the optoelectronic properties of HfS2/ZrSe2 heterostructures”, Computational Materials Science, 251 (2025), 113695
P. V. Ratnikov, A. P. Silin, “Trion gas, electron-hole liquid, and metal-insulator transition in doped heterostructures based on transition metal dichalcogenides”, Phys. Rev. B, 109:19 (2024)
P. V. Ratnikov, “DIELEKTRIChESKAYa ELEKTRONNO-DYROChNAYa ZhIDKOST' V MONOSLOYNYKh GETEROSTRUKTURAKh NA OSNOVE DIKhAL'KOGENIDOV PEREKhODNYKh METALLOV”, Žurnal èksperimentalʹnoj i teoretičeskoj fiziki, 166:5 (2024), 710
Daulet Sergeyev, Ainur Duisenova, Kuanyshbek Shunkeyev, “Electronic and Optical Properties of One-Dimensional Van Der Waals Nanodevices Based on MoS2(n,n) and MoSe2(n,n) Nanotubes”, Crystals, 14:12 (2024), 1055
A. P. Kusyak, “Magnetosensitive nanocomposite Fe $_3$ O $_4$ /Al $_2$ O $_3$ /C synthesis and properties”, Nanosistemi, Nanomateriali, Nanotehnologii, 21:2 (2023)
D. Sergeyev, A. Duisenova, A. Solovjov, N. Ismayilova, “Electron transport in a stressed moiré bigraphene structure”, Results in Physics, 54 (2023), 107140
Yu Liu, Zhaorui Wen, Ziyu Huang, Yuxin Wang, Zhiren Chen, Shen Lai, Shi Chen, Yinning Zhou, “Liquid phase graphene exfoliation with a vibration-based acoustofluidic effector”, Micromachines, 14:9 (2023), 1718
J. Van den Broeck, E. Vanderstraeten, P. Decleer, D. V. Ginste, “Conservative second-order accurate finite-difference scheme for the coupled Maxwell-Dirac equations”, Applied Mathematical Modelling, 120 (2023), 25
Yu. N. Eroshenko, “Physics news on the Internet (based on electronic preprints)”, Phys. Usp., 65:1 (2022), 108–110
I. V. Antonova, “Straintronics of 2D inorganic materials for electronic and optical applications”, Phys. Usp., 65:6 (2022), 567–596
Yu. N. Eroshenko, “Physics news on the Internet (based on electronic preprints)”, Phys. Usp., 65:12 (2022), 1323–1324
P. L. Pekh, P. V. Ratnikov, A. P. Silin, “Phase diagram of electron-hole liquid in monolayer heterostructures based on transition metal dichalcogenides”, J. Exp. Theor. Phys., 133:4 (2021), 494–507
S. Yu. Davydov, “Model estimates of the quantum capacitance of amorphous and epitaxial graphene-like compounds”, Semiconductors, 55:2 (2021), 234–242
Z. B. Cavdar, C. Yanik, E. E. Yildirim, L. Trabzon, T. C. Karalar, “Separated terminal 2D Hall sensors with improved sensitivity”, Sens. Actuator A-Phys., 320 (2021)
I. I. Abramov, N. V. Kolomeitseva, V. A. Labunov, I. A. Romanova, I. Yu. Shcherbakova, “Influence of Gate Dielectrics of Field-Effect Graphene Transistors on Current-Voltage Characteristics”, Russ Microelectron, 50:2 (2021), 118
D Sergeyev, A Duisenova, Zh Embergenov, “Modeling of electrotransport properties of Li-intercalated graphene film”, J. Phys.: Conf. Ser., 2140:1 (2021), 012025
P. L. Pekh, P. V. Ratnikov, A. P. Silin, “Electron-hole liquid in monolayer transition metal dichalcogenide heterostructures”, JETP Letters, 111:2 (2020), 90–95
Yu. N. Eroshenko, “Physics news on the Internet (based on electronic preprints)”, Phys. Usp., 63:8 (2020), 835–836
Yu. N. Eroshenko, “Physics news on the Internet (based on electronic preprints)”, Phys. Usp., 63:12 (2020), 1266–1267
P. V. Ratnikov, “Excitons in planar quantum wells based on transition metal dichalcogenides”, Phys. Rev. B, 102:8 (2020), 085303

Citing articles in Google Scholar: Russian citations, English citations
Related articles in Google Scholar: Russian articles, English articles

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