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Uspekhi Fizicheskikh Nauk, 2018, Volume 188, Number 1, Pages 3–30
DOI: https://doi.org/10.3367/UFNr.2017.02.038065
(Mi ufn5883)
 

This article is cited in 64 scientific papers (total in 64 papers)

REVIEWS OF TOPICAL PROBLEMS

Quasi-two-dimensional transition metal dichalcogenides: structure, synthesis, properties, and applications

L. A. Chernozatonskiiab, A. A. Artukhab

a Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, Moscow
b Plekhanov Russian University of Economics, Research School "Chemistry and Technology of Polymer Materials", Moscow
References:
Abstract: Electron states in quasi-two-dimensional (2D) metal and semiconductor crystals can have unusual characteristics and can therefore exhibit unusual electronic and optical properties. In this paper, the results recently obtained for a new class of 2D compounds—transition metal dichalcogenides—are presented, including those on the structure, preparation methods, the electronic, mechanical, and optical properties, defects and their influence on material properties, and conditions facilitating the formation of defects. We consider the unique properties of mono- and multilayer materials, examine their dependence on external factors, and discuss their further application prospects. Various applications of 2D transition metal dichalcogenides are described, ranging from nanolubricants, nanocomposites, biosensors, memory cells and supercapacitors to optoelectronic, spin, and photovoltaic devices.
Funding agency Grant number
Russian Science Foundation 14-12-01217
This study was supported in part by the Russian Science Foundation, grant No. 14-12-01217.
Received: December 19, 2016
Revised: February 5, 2017
Accepted: February 7, 2017
English version:
Physics–Uspekhi, 2018, Volume 61, Issue 1, Pages 2–28
DOI: https://doi.org/10.3367/UFNe.2017.02.038065
Bibliographic databases:
Document Type: Article
PACS: 73.22.-f
Language: Russian
Citation: L. A. Chernozatonskii, A. A. Artukh, “Quasi-two-dimensional transition metal dichalcogenides: structure, synthesis, properties, and applications”, UFN, 188:1 (2018), 3–30; Phys. Usp., 61:1 (2018), 2–28
Citation in format AMSBIB
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  • This publication is cited in the following 64 articles:
    Citing articles in Google Scholar: Russian citations, English citations
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