Hossein Asnaashari Eivari scite author profile

We report on the ab initio discovery of a novel putative ground state for quasi two-dimensional TiO2 through a structural search using the minima hopping method with an artificial neural network potential. The structure is based on a honeycomb lattice and is energetically lower than the experimentally reported lepidocrocite sheet by 7 meV/atom, and merely 13 meV/atom higher in energy than the ground state rutile bulk structure. According to our calculations, the hexagonal sheet is stable against mechanical stress, it is chemically inert and can be deposited on various substrates without disrupting the structure. Its properties differ significantly from all known TiO2 bulk phases with a large gap of 5.05 eV that can be tuned through strain engineering. arXiv:1704.03983v1 [cond-mat.mtrl-sci]

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Low thermal conductivity: fundamentals and theoretical aspects in thermoelectric applications

Eivari

Sohbatzadeh

Mele

et al. 2021

Materials Today Energy

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Formation energy and some mechanical properties of hydrogenated hexagonal monolayer of GeC

Sohbatzadeh

Eivari

Fakhrabad

2018

Physica B: Condensed Matter

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Preparation of Iron Oxide Ionic Ferrofluid and Study Its Magnetic and Rheological Properties

Eivari¹,

Sohbatzadeh²,

Rahdar³

et al. 2013

adv sci lett

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Mechanical properties of two-dimensional sheets of TiO$$_2$$: a DFT study

Eivari

Hafizi²

2022

Eur. Phys. J. Plus

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