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108 results on '"Mironenko, Alexander"'

1. Analytical Correlation in the H$_{2}$ Molecule from the Independent Atom Ansatz

Author

Leung, Alanna 'Lanie' and Mironenko, Alexander V.

Subjects
Physics - Chemical Physics, Quantum Physics
Abstract

The independent atom ansatz of density functional theory yields an accurate analytical expression for dynamic correlation energy in the H$_{2}$ molecule: $E_{c} = 0.5(1 - \sqrt{2})(ab|ba)$ for the atom-additive self-consistent density $\rho = |a|^{2} + |b|^{2}$. Combined with exact atomic self-exchange, it recovers more than 99.5 % of nearly exact SCAN exchange-correlation energy at R > 0.5 $\r{A}$, differing by less than 0.12 eV. The total energy functional correctly dissociates the H-H bond and yields absolute errors of 0.002 $\r{A}$, 0.19 eV, and 13 cm$^{-1}$ relative to experiment at the tight binding computational cost. The chemical bond formation is attributed to the asymptotic Heitler-London resonance of quasi-orthogonal atomic states ($- (ab|ba)$) with no contributions from kinetic energy or charge accumulation in the bond., Comment: 7 pages, 4 figures

Published
2024

2. Self-Consistent Equations for Nonempirical Tight Binding Theory

Author

Mironenko, Alexander V.

Subjects
Physics - Chemical Physics
Abstract

A new reference state for density functional theory, termed the independent atom ansatz, is introduced in this work. This ansatz allows for the exact representation of electron density in terms of non-interacting, atom-localized orbitals. Self-consistent equations for localized states are derived. Total energy functional is found to closely resemble tight binding theory. The independent atom ansatz facilitates partial cancellation of inter-atomic electron-electron and electron-nuclear interactions, which allows for the derivation of analytical Hamiltonian matrix elements in a weak interaction limit. The formalism provides charge and energy decomposition analyses at no additional cost. It also includes mechanisms to remove self-interaction and static correlation errors. Initial numerical results for simple model systems have been previously reported [Mironenko, J. Phys. Chem. A 127, 7836 (2023)]., Comment: 29 pages, 101 equations

Published
2022

3. Density Functional Theory-based Quantum Mechanics/Coarse-grained Molecular Mechanics: Theory and Implementation

Author

Mironenko, Alexander V. and Voth, Gregory A.

Subjects
Physics - Chemical Physics, Condensed Matter - Soft Condensed Matter, Physics - Computational Physics
Abstract

Quantum mechanics/molecular mechanics (QM/MM) is a standard computational tool for describing chemical reactivity in systems with many degrees of freedom, including polymers, enzymes, and reacting molecules in complex solvents. However, QM/MM is less suitable for systems with complex MM dynamics due to associated long relaxation times, the high computational cost of QM energy evaluations, and expensive long-range electrostatics. Recently, a systematic coarse-graining of the MM part was proposed to overcome these QM/MM limitations in the form of the quantum mechanics/coarse-grained molecular mechanics (QM/CG-MM) approach. Herein, we recast QM/CG-MM in the density functional theory formalism and, by employing the force-matching variational principle, access the method performance for two model systems: QM CCl4 in the MM CCl4 liquid and the reaction of tert-butyl hypochlorite with the benzyl radical in the MM CCl4 solvent. We find that DFT-QM/CG-MM accurately reproduces DFT-QM/MM radial distribution functions and 3-body correlations between QM and CG-MM subsystems. The free energy profile of the reaction is also described well, with an error < 1-2 kcal/mol. DFT-QM/CG-MM is a general, systematic, and computationally efficient approach to include chemical reactivity in coarse-grained molecular models., Comment: 35 pages, 14 figures

Published
2020

6. Implication of surface oxidation of nanoscale molybdenum carbide on electrocatalytic activity.

Author

Yu, Siying, Gautam, Ankit Kumar, Gao, Di, Kuhn, Andrew N., He, Haozhen, Mironenko, Alexander V., and Yang, Hong

Abstract

Transition metal carbides, such as molybdenum carbides, are promising substitutes for noble metals as low-cost, durable electrocatalysts. Under ambient conditions, however, these carbides are subject to oxidation due to their oxophilic nature. The partially oxidized surface may possess both oxygen-modulated metallic-like hydrogen adsorption sites and Brønsted-acidic hydroxyl sites. However, the impact of surface oxidation on electrochemical processes such as the hydrogen evolution reaction (HER) has rarely been studied. Here, we synthesized β-Mo2C catalysts and oxidized their surfaces electrochemically to varying extents to study the effects of surface oxidation on HER activity. The degree of surface oxidation was controlled by applying different potential windows to metal carbide catalysts. The samples with varying degrees of surface oxidation were tested for their HER activity. Experimental data indicate that the Tafel slope for the HER and double-layer capacitance were negatively affected by surface oxidation, particularly due to the loss of carbon and the formation of electrochemically less active surface oxides. The surface oxidation was studied experimentally by X-ray photoelectron spectroscopy and simulated using density functional theory (DFT), ab initio thermodynamics, and charge transfer estimates. Our DFT calculation results suggest that the model β-Mo2C (011) surface favors the adsorption of O* from water during the electrochemical oxidation, giving rise to the anodic current. Oxygen atoms preferentially interact with surface C sites, forming stable –C=O species and oxycarbide-like surfaces. Highly oxidized surfaces become kinetically unstable and undergo a deeper, substitutional oxidation through –C=O replacement by O*, forming a thermodynamically stable Mo(IV) surface oxide, where each Mo atom coordinates with up to six O atoms. The rate-limiting step switches from CO desorption, occuring within the potential window from 0.28 to 0.51 V, to water dissociation above 0.51 V. The computational results agree well with experimental observations, such as the onset potential (0.6 V) for rapid surface oxidation. This work helps to unravel the details of evolution of surface sites during an oxidation process of molybdenum carbides along with their effects on catalytic properties and lays the foundation for their practical use in various applications. [ABSTRACT FROM AUTHOR]

Published
2024
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8. Conclusion

Author

Kulova, Tatiana, primary, Mironenko, Alexander, additional, Rudy, Alexander, additional, and Skundin, Alexander, additional

Published
2021
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25. Simple, Exact Asymptotic Density Functional Theory

Author

Mironenko, Alexander V.

Subjects
Chemical Physics (physics.chem-ph), Condensed Matter::Materials Science, Physics - Chemical Physics, Physics::Atomic and Molecular Clusters, FOS: Physical sciences
Abstract

An exact, computationally efficient density functional theory (DFT) ansatz is derived using the asymptotic limits of large and small interatomic separations. A generalization of the Anderson-Weeks-Adams-Gilbert chemical pseudopotential theory of localized atomic states, asymptotic density functional theory (ADFT) recasts the Kohn-Sham equations in a simple, self-consistent Huckel form that features nonempirical Hamiltonian matrix elements and explicit exchange-correlation (XC), electrostatic, and orthogonalization effects. The theory provides fundamental justification for several characteristics of successful tight binding models, most notably the atomic additivity of electron density and the potential and the pairwise additivity of interatomic XC, electrostatic, and Pauli repulsion effects. The Sanderson electronegativity equalization principle and the charge equilibration mechanism resembling the Rappe-Goddard scheme naturally follow. ADFT offers a bridge between molecular orbital, valence bond, and DFT theories and holds promise to accelerate accurate quantum chemical calculations., 24 pages, 103 equations

Published
2022

45. Mechanisms for High Selectivity in the Hydrodeoxygenation of 5-Hydroxymethylfurfural over PtCo Nanocrystals

Author

Luo, Jing, primary, Yun, Hongseok, additional, Mironenko, Alexander V., additional, Goulas, Konstantinos, additional, Lee, Jennifer D., additional, Monai, Matteo, additional, Wang, Cong, additional, Vorotnikov, Vassili, additional, Murray, Christopher B., additional, Vlachos, Dionisios G., additional, Fornasiero, Paolo, additional, and Gorte, Raymond J., additional

Published
2016
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46. SOME GENERALIZATIONS AND REPRESENTATIONS OF THE POSSIBILITIES OF MULTI-PARAMETRIC MAPPING OF AFFIN SPACE IN AN APPENDIX TO THE CURVOLINEAR FORMING AND TRANSMISSION MOVEMENT.

Author

GUTSALENKO, Yury, MIRONENKO, Alexander, SHELKOVOI, Alexander, TRETYAK, Tatyana, and MIRONENKO, Sergey

Subjects
*SCIENTIFIC community, *GENERALIZATION, *APPENDIX (Anatomy), *MECHANICAL engineering, *TECHNICAL institutes, *POSSIBILITY
Abstract

The works of Prof. B. A. Perepelitsa from Kharkov Polytechnic Institute and his disciples to develop an applied methodology of multiparameter mappings in relation to the profiling and functioning of complex curvilinear objects and transmission mechanisms in mechanical engineering, mainly with examples of gears, are presented. The completed review is gratefully devoted to the 10th anniversary of Fiability & Durability Journal, which has repeatedly provided its platform to the authors to highlight this development of the wide Romanian, European and world scientific community. [ABSTRACT FROM AUTHOR]

Published
2018

47. STRUCTURAL APPROACH TO THE MATHEMATICAL DESCRIPTION AND COMPUTER VISUALIZATION OF PLANE KINEMATIC CURVES FOR THE DISPLAY OF GEARS.

Author

TRETYAK, Tatyana, MIRONENKO, Alexander, GUTSALENKO, Yury, KRUKOVA, Natalia, and MIRONENKO, Sergey

Subjects
*DATA visualization, *KINEMATICS, *GEARING machinery, *MESH networks, *COMPACT spaces (Topology)
Abstract

The structural approach stated in this paper allows to simulate the different plane kinematic curves without their concrete analytic equations. The summarized unified mapping system for rack gearing is used. The examples of plane kinematic curves received by the structural method on computer are adduced. [ABSTRACT FROM AUTHOR]

Published
2018

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