Electronic properties of MoS2 monolayer and related structures
Аннотация:
The present review provides an overview of the transition metal dichalcogenides discovered newly at the level of two dimensions. A special emphasis is given to the electronic structure of semiconducting representatives of this family, which can depend on many factors like thickness, environment, mechanical strain and structural imperfections of the layers. Both calculations and experimental data available to date on example of MoS2 compound evidence that, semiconducting dichalcogenide layers could become successful counterparts of graphene and nanosilicon as the materials of flexible nanoelectronics. However, current technologies for the fabrication of single mono- and multilayers of transition metal dichalcogenides still do not offer a large-scale and cost-effective product with the tuned quality to reveal all abilities predicted for these nanostructures.
Ключевые слова:
Постоянный URL
Статьи в номере
- In Memoriam: Alexander Ivanovskii, innovative researcher and science manager in computational materials science of advanced inorganic materials
- Scientific activities of Professor A.L. Ivanovskii in bibliometric indeces
- Chlorgraphynes: formation path, structure and electronic properties
- Ab-initio study of Re and Ru effect on stability of TCP nanoparticles in Ni-based superalloys
- Electronic structure and stabilization of C60 fullerene encapsulating actinide atom
- Boron-doped anatase: electronic band structure, boron atom locations and magnetic state
- Cubic ordered modification of titanium monoxide with structural vacancies on metal and nonmetal sublattices: electronic structure and stability
- Relations between activation energies for nucleation and of growth of crystals
- Synthesis and photocatalytic activity of quasi-one-dimensional (1-D) solid solutions Ti1-xMxO2-2x/2 (M(III)= Fe(III), Ce(III), Er(III), Tb(III), Eu(III), Nd(III) and Sm(III), 0≤x≤0.1)
- Effect of high pressures and high temperatures on structural and magnetic characteristics of nanostructured solid solutions Zn1-xFexO
- Rhenium carbides prepared by thermobaric treatment of nanosized precursors
- A facile route of coupling of ZnO nanorods by CdS nanoparticles using chemical bath deposition
- Synthesis and study of nanosized biomaterials based on hydroxyapatite
- Adsorption capacity of water-oxidized lanthanum-doped aluminum alloy powder
- Introduction of scandium, zirconium and hafnium into aluminum alloys. Dispersion hardening of intermetallic compounds with nanodimensional particles