Felix N. Tomilin scite author profile

Half-metallic ferromagnetic materials with planar forms are promising for spintronics applications. A wide range of 2D lattices like graphene, h-BN, transition metal dichalcogenides, etc. are non-magnetic or weakly magnetic. Using first principles calculations, the existence of graphene-like hexagonal chromium nitride (h-CrN) with an almost flat atomically thin structure is predicted. We find that freestanding h-CrN has a 100% spin-polarized half-metallic nature with possible ferromagnetic ordering and a high rate of optical transparency. As a possible method for stabilization and synthesis, deposition of h-CrN on 2D MoSe or on MoS is proposed. The formation of composites retains the half-metallic properties and leads to the reduction of spin-down band gaps to 1.43 and 1.71 eV for energetically favorable h-CrN/MoSe and h-CrN/MoS configurations, respectively. Calculation of the dielectric functions of h-CrN, h-CrN/MoSe and h-CrN/MoS exhibit the high transparency of all three low-dimensional nanomaterials. The honeycomb CrN may be considered as a promising fundamental 2D material for a variety of potential applications of critical importance.

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Fluorescence and photoinduced proton transfer in the protolytic forms of fluorescein: Experimental and computational study

Gerasimova

Tomilin

Malyar

et al. 2020

Dyes and Pigments

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Density-functional theory study of the electronic structure of thinSi∕SiO2quantum nanodots and nanowires

et al. 2007

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The atomic and electronic structure of a set of proposed thin (1.6 nm in diameter) silicon/silica quantum nanodots and nanowires with narrow interface, as well as parent metastable silicon structures (1.2 nm in diameter), was studied in cluster and PBC approaches using B3LYP/6-31G* and PW PP LDA approximations. The total density of states (TDOS) of the smallest quasispherical silicon quantum dot (Si 85 ) corresponds well to the TDOS of the bulk silicon. The elongated silicon nanodots and 1D nanowires demonstrate the metallic nature of the electronic structure. The surface oxidized layer opens the bandgap in the TDOS of the Si/SiO 2 species. The top of the valence band and the bottom of conductivity band of the particles are formed by the silicon core derived states. The energy width of the bandgap is determined by the length of the Si/SiO 2 clusters and demonstrates inverse dependence upon the size of the nanostructures. The theoretical data describes the size confinement effect in photoluminescence spectra of the silica embedded nanocrystalline silicon with high accuracy.

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Felix N. Tomilin

Two-dimensional hexagonal CrN with promising magnetic and optical properties: A theoretical prediction

Fluorescence and photoinduced proton transfer in the protolytic forms of fluorescein: Experimental and computational study

Density-functional theory study of the electronic structure of thinSi∕SiO2quantum nanodots and nanowires

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