326 research outputs found
Sulfur doping effects on the electronic and geometric structures of graphitic carbon nitride photocatalyst: insights from first principles
We present here results of our first principles studies of the sulfur doping
effects on the electronic and geometric structures of graphitic carbon nitride
(g-C3N4). Using the Ab initio thermodynamics approach combined with some
kinetic analysis, we reveal the favorable S-doping configurations By analyzing
the valence charge densities of the doped and un-doped systems, we find that
sulfur partially donates its px- and py- electrons to the system with some back
donation to the S pz-states. To obtain accurate description of the excited
electronic states, we calculate the electronic structure of the systems using
the GW method. The band gap width calculated for g-C3N4 is found to be equal to
2.7 eV that is in agreement with experiment. We find the S doping to cause a
significant narrowing the gap. Furthermore, the electronic states just above
the gap become occupied upon doping that makes the material a conductor.
Analysis of the projected local densities of states provides insight into the
mechanism underlying such dramatic changes in the electronic structure of
g-C3N4 upon the S doping. Based on our results, we propose a possible
explanation for the S doping effect on the photo-catalytic properties of g-C3N4
observed in the experiments
Models of Russia's Macroeconomic Policy at the Turn of the 21st Century
At present the modelling of macroeconomic processes appears to hold theoretical as well as applied interest. Hence, in the present article this method is used with regard to the Russian economy, presenting its actual economic practice in the last decade of the 20th and at the beginning of the 21st century. The author describes three macroeconomic models, taking into consideration the fact that the country is being profoundly influenced by the global financial crisis. The discussed models are: transition economy model, economic growth model and crisis-management model.Autor analizuje w artykule trzy modele makroekonomiczne polityki gospodarczej: model gospodarki transformującej się, model wzrostu gospodarczego i model zarządzania kryzysem
First principles studies of the size and shape effects on reactivity of the Se modified Ru nanoparticles
We present here the results of our density-functional-theory-based
calculations of the electronic and geometric structures and energetics of Se
and O adsorption on Ru 93- and 105-atom nanoparticles. These studies have been
inspired by the fact that Se/Ru nanoparticles are considered promising
electrocatalysts for the oxygen reduction reaction (ORR) on the direct methanol
fuel cell cathodes and the oxygen binding energy is a descriptor for the
catalyst activity towards this reaction. We find the character of chemical
bonding of Se on a flat nanoparticle facet to be ionic, similar to that
obtained earlier for the Se/Ru(0001) surface, while in the case of a low
coordinated Ru configuration there is an indication of some covalent
contribution to the bonding leading to an increase in Se binding energy. Se and
O co-adsorbed on the flat facet, both accept electronic charge from Ru, whereas
the adsorption on low-coordinated sites causes more complicated valence charge
redistribution. The Se modification of the Ru particles leads to weakening of
the oxygen bonding to the particle. However, overall, O binding energies are
found to be higher for the particles than for Se/Ru(0001). High reactivity of
the Se/Ru nanoparticles found in this work is not favorable for ORR. We thus
expect that larger particles with well-developed flat facets are more efficient
ORR catalysts than small nanoparticles with a large fraction of
under-coordinated adsorption sites
Electronic Structure of the c(2x2)O/Cu(001) System
The locally self-consistent real space multiple scattering technique has been
applied to calculate the electronic structure and chemical binding for the
c(2x2)O/Cu(001) system, as a function of -- the height of oxygen
above the fourfold hollow sites. It is found that the chemical binding between
oxygen and copper has a mixed ionic-covalent character for all plausible values
of . Furthermore, the electron charge transfer from Cu to O depends
strongly on and is traced to the variation of the long-range
electrostatic part of the potential. A competition between the hybridization of
Cu1- with O- and Cu1- with O- states
controls modification of the electronic structure when oxygen atoms approach
the Cu(001) surface. The anisotropy of the oxygen valence electron charge
density is found to be strongly and non-monotonically dependent on .Comment: 14 pages, 7 figures, 1 tabl
Relationship between Electronic and Geometric Structures of the O/Cu(001) System
The electronic structure of the
O/Cu(001) system has been calculated using locally self-consistent, real space
multiple scattering technique based on first principles. Oxygen atoms are found
to perturb differentially the long-range Madelung potentials, and hence the
local electronic subbands at neighboring Cu sites. As a result the
hybridization of the oxygen electronic states with those of its neighbors leads
to bonding of varying ionic and covalent mix. Comparison of results with those
for the c(2x2) overlayer shows that the perturbation is much stronger and the
Coulomb lattice energy much higher for it than for the
phase. The main driving force for the
0.5ML oxygen surface structure formation on Cu(001) is thus the long-range
Coulomb interaction which also controls the charge transfer and chemical
binding in the system.Comment: 17 pages, 8 figure
Improving the quality of the industrial enterprise management based on the network-centric approach
The article examines the network-centric approach to the industrial enterprise management to improve the ef ciency and effectiveness in the implementation of production plans and maximize responsiveness to customers. A network-centric management means the decentralized enterprise group management. A group means a set of enterprise divisions, which should solve by joint efforts a certain case that occurs in the production process. The network-centric management involves more delegation of authority to the lower elements of the enterprise’s organizational structure. The industrial enterprise is considered as a large complex system (production system) functioning and controlled amidst various types of uncertainty: information support uncertainty and goal uncertainty or multicriteria uncertainty. The information support uncertainty occurs because the complex system functioning always takes place in the context of incomplete and fuzzy information. Goal uncertainty or multicriteria uncertainty caused by a great number of goalsestablished for the production system. The network-centric management task de nition by the production system is formulated. The authors offer a mathematical model for optimal planning of consumers’ orders production with the participation of the main enterprise divisions. The methods of formalization of various types of uncertainty in production planning tasks are considered on the basis of the application of the fuzzy sets theory. An enterprise command center is offered as an effective tool for making management decisions by divisions. The article demonstrates that decentralized group management methods can improve the ef ciency and effectiveness of the implementation of production plans through the self-organization mechanisms of enterprise divisions.The work has been prepared with the financial support from the Russian Ministry of Education and Science (Contract No. 02.G25.31.0068 of 23.05.2013 as part of the measure to implement Decision of the Russian Government No. 218)
Evaluation of postsedimentational process influence on filtration-capacitor properties of chalky deposits of the Western Siberia north
The dependences between petrophysical parameters: porosity, volumetric density, permeability and lithochemical characteristics: content of uranium, alumina and value of the U/Al2O3 module, have been examined on the example of Creataceous age productive deposits opened by the Pestsovaya well 209 on territory of Yamalo-Nenetskiy autonomous region. Values of correlation coefficients between volumetric density and alumina content, and also open porosity and alumina content allow evaluating the intensity of secondary mineral formation in collector rock
Gold-doped graphene: A highly stable and active electrocatalysts for the oxygen reduction reaction
In addressing the growing need of renewable and sustainable energy resources, hydrogen-fuel-cells stand as one of the most promising routes to transform the current energy paradigm into one that integrally fulfills environmental sustainability. Nevertheless, accomplishing this technology at a large scale demands to surpass the efficiency and enhance the cost-effectiveness of platinum-based cathodes, which catalyze the oxygen reduction reaction (ORR). In this work, our first-principles calculations show that Au atoms incorporated into graphene di-vacancies form a highly stable and cost-effective electrocatalyst that is, at the same time, as or more (dependently of the dopant concentration) active toward ORR than the best-known Pt-based electrocatalysts. We reveal that partial passivation of defected-graphene by gold atoms reduces the reactivity of C dangling bonds and increases that of Au, thus optimizing them for catalyzing the ORR and yielding a system of high thermodynamic and electrochemical stabilities. We also demonstrate that the linear relation among the binding energies of the reaction intermediates assumed in computational high-throughput material screening does not hold, at least for this non-purely transition-metal material. We expect Au-doped graphene to finally overcome the cathode-related challenge hindering the realization of hydrogen-fuel cells as the leading means of powering transportation and portable devices
First-principles study of formation of Se submonolayer structures on Ru surfaces
The Ru nanoparticles with Se submonolayer coverage (Se/Ru) demonstrate high electrocatalytic activity toward oxygen reduction reaction (ORR) on cathodes of proton exchange membrane fuel cells. To understand the mechanisms of formation of Se structures on Ru surfaces, the geometric and electronic structures and energetics have been calculated in the present work for various distributions of Se atoms on the Ru (0001) surface and in the vicinity of the edge between the (0001) and (1101) facets. The calculations were performed within the density-functional theory with plane-wave expansion for wave functions and the projector augmented wave potentials. It has been found that due to electronic charge transfer from Ru to Se upon selenium adsorption, Se atoms become negatively charged and repel each other. This repulsion makes compact Se islands on Ru (0001) unstable. Se atoms prefer to separate from each other by the distance of similar to 5.47 angstrom or larger, which is possible for all Se adsorbates if coverage is not exceeding 1/3 ML. Further increase in Se coverage weakens Se-Ru bonding. Three-dimensional Se structure such as 4- and 11-atom pyramids are found to decompose spontaneously with scattering of Se atoms over the Ru (0001) surface. The Se adsorbates are also found to repel in the vicinity of the edge between the Ru facets, and a small increase in Se bonding to undercoordinated Ru atom does not change the trend of Se adsorbates to separate from each other. The obtained most stable configurations of Se on Ru with 1/3 ML coverage or less may also be optimal for ORR because they provide Ru sites available for O and OH adsorption
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