А. В. Зотов scite author profile

Because of their unique atomic structure, 2D materials are able to create an up-to-date paradigm in fundamental science and technology on the way to engineering the band structure and electronic properties of materials on the nanoscale. One of the simplest methods along this path is the superposition of several 2D nanomaterials while simultaneously specifying the twist angle between adjacent layers (θ), which leads to the emergence of Moirésuperlattices. The key challenge in 2D nanoelectronics is to obtain a nanomaterial with numerous Moirésuperlattices in addition to a high carrier mobility in a stable and easy-to-fabricate material. Here, we demonstrate the possibility of synthesizing twisted multilayer graphene (tMLG) with a number of monolayers N L = 40−250 and predefined narrow ranges of θ = 3−8°, θ = 11−15°, and θ = 26−30°. A 2D nature of the electron transport is observed in the tMLG, and its carrier mobilities are close to those of twisted bilayer graphene (tBLG) (with θ = 30°) between h-BN layers. We demonstrate an undoubtful presence of numerous Moirésuperlattices simultaneously throughout the entire tMLG thickness, while the periods of these superlattices are rather close to each other. This offers a challenge of producing a next generation of devices for nanoelectronics, twistronics, and neuromorphic computing for large data applications.

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Geochemistry of natural and contaminated subsurface waters in fissured bed rocks of the Lake Karachai area, Southern Urals, Russia

Solodov

Зотов

Khoteev

et al. 1998

Applied Geochemistry

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2D polyphthalocyanines of cross-linked and ordered structures from different growth regimes

Sedlovets

Волков

Khodos

et al. 2019

J. Phys. D: Appl. Phys.

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2D conjugated polyphthalocyanines can be obtained as two distinctly different types of material with specific molecular structures and different morphological properties. It was believed that the temperature is the key factor affecting the chemical reaction, but we show that even at the optimal temperature (420 °C), the reaction on vapor/solid interface and liquid/solid interface yields different products: while the former is well-polymerized and ordered, the latter is amorphous and cross-linked with the typical conjugation scale of single phthalocyanine (PC) ring. Infrared spectroscopy is most sensitive tool for identifying the molecular structure, providing the information on polymerization degree, structural uniformity and content of terminal groups. We show that, unlike the ordered polyphthalocyanines, the cross-linked product can be reproducibly obtained as continuous conductive material.

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Influence of numerous Moiré superlattices on transport properties of twisted multilayer graphene

Кононенко

Brzhezinskaya

Зотов

et al. 2022

Carbon

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The speciation and transport of palladium in hydrothermal fluids: Experimental modeling and thermodynamic constraints

Тагиров

Baranova²,

Зотов

et al. 2013

Geochimica et Cosmochimica Acta

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А. В. Зотов

Engineering of Numerous Moiré Superlattices in Twisted Multilayer Graphene for Twistronics and Straintronics Applications

Geochemistry of natural and contaminated subsurface waters in fissured bed rocks of the Lake Karachai area, Southern Urals, Russia

2D polyphthalocyanines of cross-linked and ordered structures from different growth regimes

Influence of numerous Moiré superlattices on transport properties of twisted multilayer graphene

The speciation and transport of palladium in hydrothermal fluids: Experimental modeling and thermodynamic constraints

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