Adam Mrózek scite author profile

The variation of elastic constants stiffness coefficients with respect to different percentage ratios of defects in monolayer molybdenum disulfide (MLMoS2) is reported for a particular set of atomistic nanostructural characteristics. The common method suggested is to use conventional defects such as single vacancy or di vacancy, and the recent studies use stone-walled multiple defects for highlighting the differences in the mechanical and electronic properties of 2D materials. Modeling the size influence of monolayer MoS2 by generating defects which are randomly distributed for a different percentage from 0% to 25% is considered in the paper. In this work, the geometry of the monolayer MoS2 defects modeled as randomized over the domain are taken into account. For simulation, the molecular static method is adopted and study the effect of elastic stiffness parameters of the 2D MoS2 material. Our findings reveals that the expansion of defects concentration leads to a decrease in the elastic properties, the sheer decrease in the elastic properties is found at 25%. We also study the diffusion of Molybdenum (Mo) in Sulphur (S) layers of atoms within MoS2 with Mo antisite defects. The elastic constants dwindle in the case of antisite defects too, but when compared to pure defects, the reduction was to a smaller extent in monolayer MoS2. Nevertheless, the Mo diffusion in sulfur gets to be more and more isotropic with the increase in the defect concentrations and elastic stiffness decreases with antisite defects concentration up to 25%. The distribution of antisite defects plays a vital role in modulating Mo diffusion in sulfur. These results will be helpful and give insights in the design of 2D materials.

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Anisotropic-Cyclicgraphene: A New Two-Dimensional Semiconducting Carbon Allotrope

Maździarz

Mrózek

Kuś

et al. 2018

Materials

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A potentially new, single-atom thick semiconducting 2D-graphene-like material, called Anisotropic-cyclicgraphene , has been generated by the two stage searching strategy linking molecular and ab initio approach. The candidate was derived from the evolutionary-based algorithm and molecular simulations was then profoundly analysed using first-principles density functional theory from the structural, mechanical, phonon, and electronic properties point of view. The proposed polymorph of graphene (rP16-P1m1) is mechanically, dynamically, and thermally stable and can achieve semiconducting with a direct band gap of 0.829 eV.

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The idea of a rough fuzzy controller and its application to the stabilization of a pendulum-car system

Czogała¹,

Mrózek²,

Pawlak³

1995

Fuzzy Sets and Systems

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Nano level optimization of graphene allotropes by means of a hybrid parallel evolutionary algorithm

Mrózek

Kuś

Burczyński

2015

Computational Materials Science

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Rough sets and dependency analysis among attributes in computer implementations of expert's inference models

Mrózek

1989

International Journal of Man-Machine Studies

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First-principles study of new X-graphene and Y-graphene polymorphs generated by the two stage strategy

Maździarz

Mrózek

Kuś

et al. 2017

Materials Chemistry and Physics

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A new method for discovering rules from examples in expert systems

Mrózek

1992

International Journal of Man-Machine Studies

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Rough sets in hybrid methods for pattern recognition

Cyran

Mrózek

2001

Int. J. Intell. Syst.

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Adam Mrózek

Mechanical Properties of Monolayer MoS2 with Randomly Distributed Defects

Anisotropic-Cyclicgraphene: A New Two-Dimensional Semiconducting Carbon Allotrope

The idea of a rough fuzzy controller and its application to the stabilization of a pendulum-car system

Nano level optimization of graphene allotropes by means of a hybrid parallel evolutionary algorithm

Rough sets and dependency analysis among attributes in computer implementations of expert's inference models

First-principles study of new X-graphene and Y-graphene polymorphs generated by the two stage strategy

A new method for discovering rules from examples in expert systems

Rough sets in hybrid methods for pattern recognition

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