Your search keyword '"Molecular nitrogen"' showing total 933 results

1. DETERMINING THE POSSIBILITY OF USING COLD PLASMA FOR THE OXIDATION OF ATMOSPHERIC NITROGEN INTO NITROGEN OXIDES AND THE INFLUENCE OF ACTIVATING SUBSTANCES ON THE PROCESS.

Author

Slobodyanyuk, Viktor, Kuzmenko, Andrii, Kudriavtsev, Serhii, Tselishchev, Olexii, and Loriia, Maryna

Subjects

COLD atmospheric plasmas, NITROGEN oxides, ATMOSPHERIC nitrogen oxides, LOW temperature plasmas, ATMOSPHERIC nitrogen, NITROGEN plasmas

Abstract

The process of oxidation of molecular nitrogen by high-energy oxidants, such as nitric acid vapor, products of the thermolysis of nitric acid, and hydrogen peroxide, in a cold plasma stream was studied. To implement the process of obtaining nitric acid from atmospheric air using reproductive technology (Zakharov's method), the design of a reactor for obtaining nitrogen oxides by direct oxidation of nitrogen in a cold plasma stream is proposed. At the same time, it was proposed to use the effect of obtaining nitrogen oxides in an air mixture with nitric acid vapors (the Karavaev effect) and during the thermal decomposition of hydrogen peroxide with atmospheric nitrogen (the Nagiev effect). The effectiveness of the use of cold plasma for the oxidation of atmospheric nitrogen was established, which is confirmed by the obtained dependences. It is shown that the amount of nitrogen oxides that are formed depends on the efficiency of the formation of a stable flow of OH- radicals in the plasma flow. It was also found that the amount of nitrogen oxides depends on the parameters of the plasma generator, the composition of the liquid used in the burner, and the amount of air supplied. The effect of nitric acid, hydrogen peroxide, and alcohols as activators of atmospheric nitrogen oxidation in a high-energy field was revealed. It was determined that when comparing three activator substances, which are able to form OH- radicals during their decomposition, it is hydrogen peroxide that is the most promising activator substance for carrying out the process of atmospheric nitrogen oxidation in the plasma flow. The amount of nitrogen oxides formed in the cold plasma region is almost independent of the flow rate of the reaction mixture through the reactor and remains almost unchanged in a wide range of changes in flow rates from 30 to 3000 l/h. [ABSTRACT FROM AUTHOR]

Published

2023

2. Nitrogen Cycling in the Course of Biological Treatment of Wastewater in wetlands—An Analysis

Author

Paul, Sonali, Mazumder, Camellia, Biswas, Aditi, Roy, Aratrik, Mukherjee, Susmita, and Shah, Maulin P., editor

Published

2023

3. Nitrogen

Author

Cleaves, Henderson James, II, Gargaud, Muriel, editor, Irvine, William M., editor, Amils, Ricardo, editor, Claeys, Philippe, editor, Cleaves, Henderson James, editor, Gerin, Maryvonne, editor, Rouan, Daniel, editor, Spohn, Tilman, editor, Tirard, Stéphane, editor, and Viso, Michel, editor

Published

2023

4. Streamer-induced kinetics of excited states in pure N2: I. Propagation velocity, E/N and vibrational distributions of N2(C 3Πu ) and N 2+ (B 2Σu+ ) states.

Author

Bílek, Petr, Dias, Tiago Cunha, Prukner, Václav, Hoffer, Petr, Guerra, Vasco, and Šimek, Milan

Subjects

*EXCITED states, *NITROGEN, *VELOCITY, *MOLECULAR spectra, *GLOW discharges

Abstract

The emission spectra of a streamer discharge in pure nitrogen provide an important tool for investigating the fundamental kinetics of excited electronic states of N2 and benchmark data for validating advanced kinetic schemes for numerical models. In this work, we characterize a streamer monofilament developed in a dielectric barrier discharge configuration, including electrical characteristics, time-resolved images and N2/N 2 + emission spectra, all acquired with nanosecond temporal resolution. Time-resolved images and emission characteristics provide clear evidence of the formation of a cathode-directed streamer and allow determining the streamer propagation velocity and the typical E / N values using the intensity ratio of nitrogen spectral bands in the center of the discharge gap. We also measure the vibrational distributions of the N2(C 3 Π u , v = 0–4) and N 2 + (B 2 Σ u + , v = 0–2) states. The population of N2(C 3 Π u , v = 0–4) state, initially formed by energetic electrons in the streamer head, changes later significantly due to the decrease in the mean energy and concentration of the streamer channel electrons. After a few tens of nanoseconds, the electron-impact excitation rate of N2(C 3 Π u ) becomes negligible compared to its population by the N2( A 3 Σ u + ) + N2( A 3 Σ u + ) pooling. The experimental findings are supported and consistent with the 0D state-to-state kinetic model results and reveal the participation of high vibrational levels of N2( A 3 Σ u + ) in the pooling reactions. [ABSTRACT FROM AUTHOR]

Published

2023

5. Vibrational Kinetics of NO and N2 in the Earth's Middle Atmosphere During GLE69 on January 20, 2005.

Author

Kirillov, A. S., Belakhovsky, V. B., Maurchev, E. A., Balabin, Yu.V., Germanenko, A. V., and Gvozdevsky, B. B.

Subjects

MIDDLE atmosphere, NUCLEAR reactions, ELECTRONIC excitation, ENERGY transfer, CHARGE exchange, INTRAMOLECULAR proton transfer reactions

Abstract

The mechanisms of the production of vibrationally excited NO and N2 molecules at the altitudes of the middle atmosphere of the Earth during high‐energetic proton precipitation on 20 January 2005 are considered. The study of vibrational populations N2(X1Σg+,v′ > 0) during high‐energetic proton precipitation has shown different principal mechanisms in the N2(X1Σg+,v′ > 0) excitation. First, the excitation by secondary electrons is principal for vibrational levels v′ = 1−10. Second, it is obtained that intramolecular electron energy transfer process in N2(A3Σu+)+N2 collisions dominates in vibrational excitation of high vibrational levels v′ = 20−30. It is shown that the chemical reaction of metastable atomic nitrogen with molecular oxygen is the main production mechanism of vibrationally excited NO(X2Π,v > 0) and of the radiation of 5.3 and 2.7 μm infrared emissions at these altitudes. The calculated intensities of the 5.3 μm emission are compared with experimental data from SABER instrument on TIMED spacecraft received at the time of the proton precipitation. The role of VV′‐processes in the radiation of 5.3 μm infrared emission is discussed. Plain Language Summary: The Ground Level Enhancement on 20 January 2005 is the strongest event of precipitation of energetic protons in the Earth's atmosphere. We study molecular processes at the altitudes of the middle atmosphere during the precipitation. Special attention is paid to a modeling of vibrational kinetics of molecular nitrogen N2 and nitric oxide NO. The influence of electronically excited states of N2 and NO molecules on the vibrational kinetics is considered. The intensities of NO 5.3 and 2.7 μm infrared emissions are calculated. The calculated intensities of the 5.3 μm emission are compared with experimental data from SABER instrument on TIMED spacecraft received at the time of the proton precipitation. Key Points: Vibrational kinetics of NO and N2 in the middle atmosphere during high‐energetic proton precipitation is consideredIntramolecular and intermolecular electron energy transfers are taken into account in calculations of vibrational populations of moleculesIt is shown that there is a dependence of calculated vibrational populations on atmospheric altitude [ABSTRACT FROM AUTHOR]

Published

2023

6. High Harmonic Generation Produced in Molecular Nitrogen using Ultrashort Optical Pulses

Author

Muhammed Sayraç

Subjects

yüksek harmonic üretimi, xuv, ultrahızlı optik, nitrogen molekülü, high harmonic generation, ultrafast optics, molecular nitrogen, Science (General), Q1-390

Abstract

Generation of coherent extreme ultraviolet (XUV) pulses is a nonlinear process of high harmonic generation (HHG). HHG produced in molecular nitrogen (N2) medium has been obtained using ultrashort intense laser pulses. The strong laser field was focused onto a gas cell to produce short wavelengths having photon energy up to 54 eV. The highest photon energy is experimentally observed as the 35th order. The absorption of harmonics restricts the harmonic yield efficiency. The harmonic yield is affected by the interaction length and medium pressure. The harmonic yield changes with the medium parameters. The simulation for the absorption length was performed using the Mathematica program. Variation of the harmonic signal has been attributed to the absorption of harmonics, and it is compared with the absorption length.

Published

2022

7. Efficient vibrational excitation of molecular nitrogen in low-pressure plasma with ultralow electron temperature.

Author

Yamazaki, Masahiro and Sasaki, Koichi

Subjects

*ELECTRON temperature, *NITROGEN plasmas, *ELECTRON plasma, *ELECTRONIC excitation, *PLASMA temperature

Abstract

We investigated the vibrational temperature of molecular nitrogen in the downstream of helicon-wave excited helium and argon-based plasmas. It was confirmed by optical emission spectroscopy that the major part of the helium plasma was at a recombining state and it had an ultralow electron temperature of approximately 0.1Â eV. In spite of the ultralow electron temperature, the vibrational temperature of molecular nitrogen, which was added into the helium plasma, was higher than that in the argon-based plasma at an ionizing state with an electron temperature of 1.7Â eV. According to the relationship between the rate coefficient of electron impact vibrational excitation and the electron temperature, the higher vibrational temperature in the helium plasma is not attributable to the more efficient vibrational excitation. Therefore, the higher vibrational temperature is owing to the less efficient destruction of vibrational excited states in the helium plasma with the ultralow electron temperature. [ABSTRACT FROM AUTHOR]

Published

2022

8. Molecular Nitrogen

Author

Gargaud, Muriel, editor, Irvine, William M., editor, Amils, Ricardo, editor, Claeys, Philippe, editor, Cleaves, Henderson James, editor, Gerin, Maryvonne, editor, Rouan, Daniel, editor, Spohn, Tilman, editor, Tirard, Stéphane, editor, and Viso, Michel, editor

Published

2023

9. High Harmonic Generation Produced in Molecular Nitrogen using Ultrashort Optical Pulses.

Author

SAYRAC, Muhammed

Subjects

*ULTRA-short pulsed lasers, *HARMONIC generation, *ULTRASHORT laser pulses, *NITROGEN

Abstract

Generation of coherent extreme ultraviolet (XUV) pulses is a nonlinear process of high harmonic generation (HHG). HHG produced in molecular nitrogen (N2) medium has been obtained using ultrashort intense laser pulses. The strong laser field was focused onto a gas cell to produce short wavelengths having photon energy up to 54 eV. The highest photon energy is experimentally observed as the 35th order. The absorption of harmonics restricts the harmonic yield efficiency. The harmonic yield is affected by the interaction length and medium pressure. The harmonic yield changes with the medium parameters. The simulation for the absorption length was performed using the Mathematica program. Variation of the harmonic signal has been attributed to the absorption of harmonics, and it is compared with the absorption length. [ABSTRACT FROM AUTHOR]

Published

2022

10. NUMERICAL SIMULATION OF NITROGEN OXIDE FORMATION IN DUST FURNACES.

Author

Ongar, Bulbul, Beloev, Hristo, Iliev, Iliya, Ibrasheva, Assem, and Yegzekova, Anara

Subjects

*COMPUTER simulation, *NITRIC oxide synthesis, *COAL-fired power plants, *MATHEMATICAL models, *COAL gasification, *SULFUR oxides

Abstract

Even though natural sources of air pollution account for over 50% of sulphur compounds, 93% of nitrogen oxide which are the most dangerous artificial anthropogenic sources of air pollution and primarily associated with the combustion of fossil fuel. Coal-fired thermal power plants and industrial fuel-burning plants that emit large quantities of nitrogen oxides (NO and NO2), solids (ash, dust, soot), as well as carbon oxides, aldehydes, organic acids into the atmosphere pollute the environment in majority. In the present work, a mathematical model and a scheme for calculating the formation of nitrogen oxide has been developed. Also, the dependence of the rate of release of fuel nitrogen from coal particles at the initial stage of gasification and content of volatiles has been obtained. The main regularities of the formation of NOx at the initial section of the flame in the ignition zone of the swirl burner flame during the combustion of Ekibastuz coal have been revealed. Modern environmental requirements for the modernization of existing and the creation of new heat and power facilities determine the exceptional relevance of the development of effective methods and constructions to reduce emissions of nitrogen oxides, sulfur oxides and ash to 200, 300, and 100 mg/nm³ at α = 1.4. The dust consumption in all experiments was kept constant and amounted to 0.042 g/s, as well as with the results of calculating the thermal decomposition of the Ekibastuz coal dust, the recombination of atomic nitrogen into nitrogen molecules, and the kinetics of the formation of fuel nitric oxide. It was found that despite the presence of oxygen in Ekibastuz coal for gases Odaf = 11.8 % in an inert atmosphere, nitrogen oxides are not formed. [ABSTRACT FROM AUTHOR]

Published

2022

11. The Response of Middle Thermosphere (∼160 km) Composition to the November 20 and 21, 2003 Superstorm.

Author

Yu, Tingting, Wang, Wenbin, Ren, Zhipeng, Cai, Xuguang, Yue, Xinan, and He, Maosheng

Subjects

THERMOSPHERE, GREAT Blizzard of 1993, BLIZZARDS, IONOSPHERE, OXYGEN

Abstract

TIMED/GUVI limb measurements and first‐principles simulations from the Thermosphere Ionosphere Electrodynamics Global Circulation Model (TIEGCM) are used to investigate thermospheric atomic oxygen (O) and molecular nitrogen (N2) responses in the middle thermosphere on a constant pressure surface (∼160 km) to the November 20 and 21, 2003 superstorm. The consistency between GUVI observations and TIEGCM simulated composition changes allows us to utilize TIEGCM outputs to investigate the storm‐time behaviors of O and N2 systematically. Diagnostic analysis shows that horizontal and vertical advection are the two main processes that determine the storm‐induced perturbations in the middle thermosphere. Molecular diffusion has a relatively smaller magnitude than the two advection processes, acting to compensate for the changes caused by the transport partly. Contributions from chemistry and eddy diffusion are negligible. During the storm initial and main phases, composition variations at high latitudes are determined by both horizontal and vertical advection. At middle‐low latitudes, horizontal advection is the main driver for the composition changes where O mass mixing ratio Ψo decreases (N2 mass mixing ratio ΨN2 increases); whereas horizontal and vertical advection combined to dominate the changes in the regions where Ψo increases (ΨN2 decreases). Over the entire storm period, horizontal advection plays a significant role in transporting high‐latitude composition perturbations globally. Our results also demonstrate that storm‐time temperature changes are not the direct cause of the composition perturbations on constant pressure surfaces. Key Points: Horizontal and vertical advection are the two main processes driving O and N2 changes in the middle thermosphere during the superstormMolecular diffusion is relatively weak in the middle thermosphere, acting to compensate for O and N2 changes caused by transport processesStorm‐time temperature changes are not the direct cause of the composition perturbations on constant pressure surfaces [ABSTRACT FROM AUTHOR]

Published

2021

12. Photocatalytic Fixation of Molecular Nitrogen in Systems Based on Graphite-Like Carbon Nitride: a Review.

Author

Kuchmiy, S. Ya. and Stroyuk, O. L.

Subjects

*NITROGEN fixation, *NITRIDES, *METAL sulfides, *METALLIC composites, *CARBON, *FUNCTIONAL groups, *NONMETALS

Abstract

Cutting-edge research on graphite-like carbon nitride-based (g-C3N4) photocatalytic systems for molecular nitrogen fixation is summarized. The properties of modified g-C3N4 with grafted functional groups, structural defects (nitrogen or carbon vacancies), doped with nonmetals and metals, as well as g-C3N4-based binary and ternary composites with the participation of metals, their oxides, metalates, carbonates, hydrocarbons, and sulfides are discussed. The most promising areas of further research are outlined. [ABSTRACT FROM AUTHOR]

Published

2021

13. Implications of Electron Detachment in Associative Collisions of Atomic Oxygen Anion with Molecular Nitrogen for Modeling of Transient Luminous Events.

Author

Janalizadeh, Reza and Pasko, Victor P.

Subjects

*OXYGEN, *ELECTRON impact ionization, *ELECTRONIC excitation, *ATOMIC collisions, *ELECTRIC discharges

Abstract

Electron detachment from O− is important for understanding of lightning‐induced upper atmospheric discharges. Contrary to previous studies, Rayment and Moruzzi (1978) (RM78) argue that the associative detachment reaction of O− with N2 proceeds with N2 in its ground state. Here, we analyze the experimental setup in RM78 and demonstrate that vibrationally excited N2 may have in fact contaminated the results, the theoretical approach in RM78 requires corrections, and the rate calculations provided in RM78 are inconsistent. As the vibrational temperature of N2 remains relatively low in the initial stages of gas discharges in air, i.e., streamer formation, we conclude that if in fact vibrationally excited N2 is required for the O− + N2 → N2O + e reaction to proceed, the process will happen only in later stages of the discharge, e.g., during streamer to leader transition. Controlled experiments are required to reconcile the literature on the reaction of O− with ground state N2. Plain Language Summary: The development of lightning induced transient luminous events in the middle atmosphere (i.e., sprite discharges) usually proceeds on very short time scales measured in milliseconds. The modeling of these discharges requires accounting for a set of relatively fast reactions, that includes the electron impact ionization of ambient oxygen and nitrogen molecules, the dissociative attachment of electrons and the electron impact excitation of electronic states of N2 that have relatively short lifetimes and are responsible for observed visible, infrared, and ultraviolet signatures of these events detected from various (orbital and ground based) remote sensing platforms. Here we discuss the existing knowledge on the associative detachment of electrons from O− ions obtained in previous current growth laboratory experiments under steady state conditions. This detachment process has been included in several recently published models of transient luminous events. This process may be applicable to later stages of discharge development when significant quantities of vibrationally excited nitrogen molecules accumulate. This work provides evidence that it may not be applicable during initiation of these discharges. Key Points: Applicability of the associative detachment of electrons from O− ions to modeling of lightning induced transient luminous events is discussedThe detachment rate obtained in previous steady state laboratory experiments requires correctionControlled experiments are required to reconcile the literature on the detachment reaction of O− with ground state N2 and vibrationally excited N2 [ABSTRACT FROM AUTHOR]

Published

2021

14. Energy, Water, Climate and Cycles

Author

Ayres, Robert, Elitzur, Avshalom C., Series editor, Mersini-Houghton, Laura, Series editor, Padmanabhan, T., Series editor, Schlosshauer, Maximilian, Series editor, Silverman, Mark P., Series editor, Tuszynski, Jack A., Series editor, Vaas, Rüdiger, Series editor, and Ayres, Robert

Published

2016

15. State-to-state dissociative photoionization of molecular nitrogen: the full story

Author

T. Ayari, M. Desouter-Lecomte, R. Linguerri, G. A. Garcia, L. Nahon, A. Ben Houria, H. Ghalila, R. Ben Said, and M. Hochlaf

Subjects

molecular nitrogen, photoionization, ab initio computations, dynamical computations, state-to-state reactions, Physics, QC1-999

Abstract

N2 is a major constituent of Earth and planetary atmospheres. First, evidenced in 1952, the dissociative photoionization of molecular nitrogen, N2, plays an important role in the species abundance, out of equilibrium evolution, and chemical reactivity of diverse media including upper atmospheres (the so-called ionospheres) and plasma. Many scenarios were proposed for rationalizing the dissociative ionization mechanisms and exit channels, which are reviewed here, mainly involving the N2+(C2∑u+, v+) vibrational levels state-to-state dynamics on which we focus. We show, however, that previous studies are not comprehensive enough for fully shedding light on the complex undergoing processes. As a complementary global work, we used state-of-the-art quantum chemistry, time dependent and independent theoretical approaches associated to advanced experimental techniques to study the unimolecular decomposition of the N2+ ions forming the N+ + N products. In addition to the already suggested spin-orbit-induced predissociation of the cationic C2∑u+ state, we documented a new mechanism based on vibronic coupling and tunneling dissociation. Besides, the quantum processes highlighted here should be also in action in the dynamics of electronically excited larger molecular systems involved in physical and chemical phenomena in plasma and in various natural environments on Earth and beyond.

Published

2020

16. Mathematcal modelling of vibrationally excited nitrogen in the ionosphere

Author

Ennis, Alison Elisabeth

Subjects

551.5, Plasmasphere, Molecular nitrogen

Published

1996

17. Luminescence of molecular nitrogen in cryogenic plasmas.

Author

Boltnev, R. E., Bykhalo, I. B., Khmelenko, V. V., Krushinskaya, I. N., Lee, D. M., McColgan, P. T., Sheludiakov, S., and Pelmenev, A. A.

Subjects

*NITROGEN plasmas, *HELIUM atom, *LUMINESCENCE, *GAS mixtures, *ENERGY transfer

Abstract

Great enhancement of molecular nitrogen luminescence in the afterglow of nitrogen-helium gas mixtures was observed at temperatures ≤ 10 K. The effect is explained by the increased efficiency of the recombination of nitrogen atoms and energy transfer from metastable nitrogen molecules and helium atoms to nitrogen molecules in the cold dense helium vapor. [ABSTRACT FROM AUTHOR]

Published

2019

18. Planetary Atmospheres

Author

Keeton, Charles, Ashby, Neil, Series editor, Brantley, William, Series editor, Fowler, Michael, Series editor, Inglis, Michael, Series editor, Klose, Heinz, Series editor, Sherif, Helmy, Series editor, and Keeton, Charles

Published

2014

19. Semiconductor photocatalysts and mechanisms of carbon dioxide reduction and nitrogen fixation under UV and visible light

Author

Valentin N. Parmon, D.V. Kozlov, Ekaterina A. Kozlova, and Mikhail N. Lyulyukin

Subjects

Molecular nitrogen, Fixation (surgical), Semiconductor, business.industry, Chemistry, Visible light irradiation, General Chemistry, Photochemistry, business, Electrochemical reduction of carbon dioxide

Abstract

The review summarizes the current knowledge about heterogeneous semiconductor photocatalysts that are active towards photocatalytic reduction of carbon dioxide and molecular nitrogen under visible and near-UV light. The main classes of these photocatalysts and characteristic features of their application in the target processes are considered. Primary attention is given to photocatalysts based on titanium dioxide, which have high activity and stability in the carbon dioxide reduction. For the first time, the photofixation of nitrogen under irradiation in the presence of various semiconductor materials is considered in detail.The bibliography includes 264 references.

Published

2021

20. Nitrogen

Author

Cleaves, Henderson James (Jim), II, Gargaud, Muriel, editor, Irvine, William M., editor, Amils, Ricardo, editor, Cleaves, Henderson James (Jim), II, editor, Pinti, Daniele L., editor, Quintanilla, José Cernicharo, editor, Rouan, Daniel, editor, Spohn, Tilman, editor, Tirard, Stéphane, editor, and Viso, Michel, editor

Published

2015

21. Stable Isotopes

Author

Malainey, Mary E. and Malainey, Mary E.

Published

2011

22. Rationalization of the Substructures Derived from the Three Fluorite-Related [Li6(MVLi)N4] Polymorphs: An Analysis in Terms of the 'Bärnighausen Trees' and of the 'Extended Zintl–Klemm Concept'

Author

Bevan, D. J. M., Martin, R. L., Vegas, Ángel, and Vegas, Angel, editor

Published

2011

23. The Iron Sulfide World of Protometabolism

Author

Flügel, Rolf M. and Flügel, Rolf M.

Published

2011

24. Ab Initio Calculation of the Lowest Singlet and Triplet Excited States of the N2 Molecule.

Author

Adamson, S. O., Kuverova, V. V., Ozerov, G. K., Golubkov, G. V., Nabiev, Sh. Sh., and Golubkov, M. G.

Abstract

Ab initio calculations of the adiabatic potential curves and matrix elements of radial nonadiabatic coupling of the N2 molecule for the states related to dissociation limits I-V were performed. The most important spectral characteristics of the adiabatic states agreed well with the available experimental and theoretical data. The diabatic states were constructed. The diabatic quantum defects and radial matrix elements of the configuration interaction of the dissociative and Rydberg configurations whose states converge to the ground state X2Σg+ and the first electronically excited state A2Πu of the N2+ ion were calculated. The possibility of using the results for calculating the cross sections and rate constants of dissociative recombination and associative ionization within the framework of the multichannel quantum defect theory was discussed. [ABSTRACT FROM AUTHOR]

Published

2018

25. Accurate non-asymptotic thermodynamic properties of near-critical N2 and O2 computed from molecular dynamics simulations.

Author

Nichele, Jakler, Abreu, Charlles R.a., Alves, Leonardo S. De B., and Jr.borges, Itamar

Subjects

*ISOTHERMAL compression, *THERMAL expansion, *MOLECULAR dynamics, *THERMODYNAMICS, *NANOPARTICLES

Abstract

Four thermodynamic properties of pure N 2 and O 2 fluids were calculated over a continuous temperature range in the near-critical region employing molecular dynamics combined with the multistate Bennett acceptance ratio (MBAR) technique. The non-asymptotic critical anomalies of the isothermal compressibility, the thermal expansion coefficient and the heat capacities at constant pressure and constant volume were determined in the 0.80 T c –1.20 T c temperature range along the 1.00 P c and 1.15 P c isobars. A single-site united-atom model and a two-site rigid rotor force fields were used in the simulations. The results show that effective force fields developed to describe accurately the behavior of liquids and dense gases in general can be used to obtain near-critical anomalies of the thermodynamic properties. Furthermore, the computed values are in very good agreement with NIST data when available. The results fill existing gaps of the NIST database in the near-critical vicinity of the critical temperature along the critical isobar, especially for the heat capacities. The MBAR technique was crucial to describe the continuous and sharp peak of each property as functions of the temperature. The results indicated that even with a simple force field such as the united-atom one-site approach, very good results could be obtained for the non-asymptotic critical anomalies of thermodynamic properties without using renormalization group techniques. The computation of accurate results was possible due to the availability of precise critical constants especially for the simpler one-site force field. The inclusion of the anisotropy in the force field does not necessarily improve the computed thermodynamic properties in the near critical region. [ABSTRACT FROM AUTHOR]

Published

2018

26. Population Dynamics

Author

Bloomfield, Victor and Bloomfield, Victor

Published

2009

27. Synthesis of High-Nitrogen Energetic Material

Author

Eremets, Mikhail I., Trojan, Ivan A., Gavriliuk, Alexander G., Medvedev, Sergey A., Davison, L., editor, Horie, Y., editor, Peiris, Suhithi M., editor, and Piermarini, Gasper J., editor

Published

2008

28. Potential of Molecular Nitrogen Fixation by Carbonyl Clusters of Platinum Metals in Lower Oxidation States: A Review

Author

I. V. Fedoseev, Andrei V. Shevelkov, and V. V. Vasekin

Subjects

inorganic chemicals, Molecular nitrogen, Fixation (alchemy), endocrine system diseases, Atmospheric pressure, Materials Science (miscellaneous), Inorganic chemistry, chemistry.chemical_element, Inorganic Chemistry, Ammonia, chemistry.chemical_compound, chemistry, Cluster (physics), Osmium, Physical and Theoretical Chemistry, Platinum, Palladium

Abstract

This minireview presents the results that show the potential of molecular nitrogen fixation by carbonyl cluster compounds of platinum metals at room temperature and atmospheric pressure to produce ammonia or its derivatives. Although the main attention is given to processes with the participation of derivatives of platinum and palladium, it was demonstrated that molecular nitrogen fixation is characteristic of all the platinum metals, except osmium.

Published

2021

29. Rhodium(III)‐Catalyzed Sequential C−H Activation and Cyclization from N ‐Methoxyarylamides and 3‐Diazooxindoles for the Synthesis of Isochromenoindolones

Author

Hee Chan Noh, Haneal Jeong, Kyungsup Lee, Phil Ho Lee, Chanyoung Maeng, Gi Hoon Ko, Gi Uk Han, and Sang Hoon Han

Subjects

Molecular nitrogen, Chemistry, Organic Chemistry, Substrate (chemistry), chemistry.chemical_element, General Chemistry, Biochemistry, Combinatorial chemistry, Catalysis, Rhodium, chemistry.chemical_compound, Present method, Methoxyamine, Functional group

Abstract

An efficient synthetic method for structurally various isochromenoindolones has been demonstrated through Rh(III)-catalyzed C-H activation followed by a cyclization reaction of N-methoxyarylamides with 3-diazooxindoles. The sequential reaction involves the streamlined formation of C-C and C-O bonds in one pot. The present method provides a broad range of isochromenoindolones as a new privileged scaffold in moderate to good yields with the release of methoxyamine and molecular nitrogen and has the benefits of a broad substrate scope and good functional group tolerance.

Published

2021

30. Photocatalytic Fixation of Molecular Nitrogen in Systems Based on Graphite-Like Carbon Nitride: a Review

Author

Oleksandr Stroyuk and S. Ya. Kuchmiy

Subjects

chemistry.chemical_compound, Molecular nitrogen, Chemical engineering, Chemistry, Doping, Photocatalysis, chemistry.chemical_element, General Chemistry, Graphite, Ternary operation, Carbon nitride, Carbon, Nitrogen

Abstract

Cutting-edge research on graphite-like carbon nitride-based (g-C3N4) photocatalytic systems for molecular nitrogen fixation is summarized. The properties of modified g-C3N4 with grafted functional groups, structural defects (nitrogen or carbon vacancies), doped with nonmetals and metals, as well as g-C3N4-based binary and ternary composites with the participation of metals, their oxides, metalates, carbonates, hydrocarbons, and sulfides are discussed. The most promising areas of further research are outlined.

Published

2021

31. Numerical Study of Breakdown and Formation Dynamics of Arc Discharge Plasma Parameters at Ultrahigh Pressures

Author

A. O. Sofronitskii and A. I. Saifutdinov

Subjects

Arc (geometry), Electric arc, Molecular nitrogen, Chemistry, law, Plasma parameters, Excited state, Dynamics (mechanics), Plasma, Mechanics, Physical and Theoretical Chemistry, Cathode, law.invention

Abstract

The paper presents a model that makes it possible to describe the parameters of arc discharge in molecular nitrogen at ultrahigh pressures (200 atm) typical for the problems of igniting oil reservoirs. On the basis of the formulated model, numerical experiments have been carried out to study breakdown and the formation dynamics of the main parameters of microarc-discharge plasma. It has been shown that the breakdown occurs at times on the order of 10−5 s. The discharge is excited in a glow mode, which rather quickly (at times of ~10−3–10–1 s), as a result of self-coupled heating of the cathode, transforms into an arc with a free cathode operation mode.

Published

2021

32. Estimation of Vibrational Temperatures of N-2 and CO2 in Low-Pressure Electron Cyclotron Resonance Plasmas by Threshold Ionization Mass Spectrometry

Author

Hosoyama, Shinnosuke, Yamazaki, Masahiro, 1000050235248, Sasaki, Koichi, Hosoyama, Shinnosuke, Yamazaki, Masahiro, 1000050235248, and Sasaki, Koichi

Abstract

This paper demonstrates the estimation of vibrational temperatures of N-2 and CO2 in low-pressure plasmas by threshold ionization mass spectrometry. The principle for the estimation is the decrease in the ionization potential by the vibrational excitation. We observed that the threshold ionization curves of N-2 and CO2, which were measured using a quadrupole mass spectrometer with an energy-variable electron beam, shifted toward the low-energy side, when they were sampled from the plasmas. We constructed a model which assumed a Boltzmann distribution for the population densities of vibrational excited states and the same cross sections of electron impact ionization for vibrational excited states except the shifts of the threshold energies. The vibrational temperatures were estimated by fitting the experimental threshold ionization curves with the model.

Published

2022

33. Semiconductor Photocatalytic Systems for the Reductive Conversion of CO2 and N2.

Author

Stroyuk, O. L. and Kuchmy, S. Ya.

Subjects

*PHOTOCATALYSIS, *DOPED semiconductors, *CARBON dioxide, *NITROGEN, *NANOSTRUCTURED materials, *PHOTOCHEMISTRY

Abstract

We have examined the current state of research on photocatalytic systems for the reductive conversion of CO2 and N2 using various semiconductor nanomaterials with a discussion of the photocatalytic properties of individual and doped nanocrystalline semiconductors, their binary nanoheterostructures, and systems containing various sensitizers. The most promising directions are outlined for further research in this area of modern photochemistry. [ABSTRACT FROM AUTHOR]

Published

2018

34. Semiconductor Photocatalytic Systems for the Reductive Conversion of CO2 and N2.

Author

Stroyuk, O. L. and Kuchmy, S. Ya.

Subjects

PHOTOCATALYSIS, DOPED semiconductors, CARBON dioxide, NITROGEN, NANOSTRUCTURED materials, PHOTOCHEMISTRY

Abstract

We have examined the current state of research on photocatalytic systems for the reductive conversion of CO2 and N2 using various semiconductor nanomaterials with a discussion of the photocatalytic properties of individual and doped nanocrystalline semiconductors, their binary nanoheterostructures, and systems containing various sensitizers. The most promising directions are outlined for further research in this area of modern photochemistry. [ABSTRACT FROM AUTHOR]

Published

2018

35. Nitrogen Fixation in Planetary Environments: A Comparison Between Mildly Reducing and Neutral Atmospheres

Author

Navarro-González, Rafael, Chela-Flores, Julián, editor, Lemarchand, Guillermo A., editor, and Oró, John, editor

Published

2000

36. Energy Use in Agriculture

Author

Wiser, Wendell H. and Wiser, Wendell H.

Published

2000

37. Regio- and stereoselective electrochemical synthesis of sulfonylated enethers from alkynes and sulfonyl hydrazides

Author

Wu-Bo Du, Li-Rong Wen, Ming Li, Lin-Bao Zhang, Shao-Fei Ni, Chao Pan, and Ning-Ning Wang

Subjects

Sulfonyl, chemistry.chemical_classification, Molecular nitrogen, Chemistry, Environmental Chemistry, Stereoselectivity, Metal catalyst, Electrochemistry, Pollution, Combinatorial chemistry, Stoichiometry

Abstract

An electrooxidative direct difunctionalization of internal alkynes with sulfonyl hydrazides has been developed for the construction of sulfonated enethers. In this transformation, metal catalysts or stoichiometric amount of oxidants are not required and molecular nitrogen and hydrogen are the sole byproducts, providing a simple and green approach for preparing various sulfonyl tetrasubstituted alkenes. Notably, the protocol could be efficiently scaled up and the follow-up procedures of the corresponding functionalized alkenes demonstrate the practicality of the electrochemical synthesis.

Published

2021

38. A General Survey and Recent Advances in the Activation of Unreactive Chemical Bonds by Metal Complexes

Author

Gossage, Robert A., van Koten, Gerard, Brown, John M., editor, Dixneuf, Pierre, editor, Fürstner, Alois, editor, Hegedus, Louis S., editor, Hofmann, Peter, editor, Knochel, Paul, editor, van Koten, Gerard, editor, Marks, Tobin J., editor, Murai, Shinji, editor, Reetz, Manfred, editor, Alper, H., editor, Gossage, R. A., editor, Grushin, V. V., editor, Hidai, M., editor, Ito, Y., editor, Jones, W. D., editor, Kakiuchi, F., editor, van Koten, G., editor, Lin, Y.-S., editor, Mizobe, Y., editor, Murai, S., editor, Murakami, M., editor, Richmond, T. G., editor, Sen, A., editor, Suginome, M., editor, and Yamamoto, A., editor

Published

1999

39. Bipentazole (N10): A Low-Energy Molecular Nitrogen Allotrope with High Intrinsic Stability

Author

Sergey V. Bondarchuk

Subjects

Molecular nitrogen, Materials science, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Stability (probability), 0104 chemical sciences, Crystal structure prediction, Characterization (materials science), Low energy, Chemical physics, General Materials Science, Physical and Theoretical Chemistry, 0210 nano-technology

Abstract

In this Letter, we report a crystal structure prediction and characterization of a molecular nitrogen allotrope N10 (bipentazole) using state-of-the-art computational methods. To date, in the form ...

Published

2020

40. Chromism of phosphomolybdate-dye moiety: A material for molecular nitrogen and oxygen binding

Author

Tarasankar Pal, Kaushik Mallick, Arun Kumar Sinha, and Anup Kumar Sasmal

Subjects

Molecular nitrogen, Hydrogen bond, technology, industry, and agriculture, macromolecular substances, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Photochemistry, 01 natural sciences, humanities, Catalysis, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Chromism, Moiety, Molecule, Malachite green, 0210 nano-technology, Oxygen binding

Abstract

Chromism from phosphomolybdate – malachite green dye moiety through hydrogen bonding interaction with water molecules is reported. Interestingly, the substance with bound di-nitrogen or di-oxygen together with water molecules also exhibits color change. N2 or O2 binding vis-a-vis chromism is a new insight.

Published

2020

41. Diazonium Gold Salts as Novel Surface Modifiers: What Have We Learned So Far?

Author

Ahmad A. L. Ahmad, Bizuneh Workie, and Ahmed A. Mohamed

Subjects

Molecular nitrogen, catalysis, surface grafting, Chemistry, Metal salts, Physics, QC1-999, forensic nanotechnology, Nanotechnology, 02 engineering and technology, diazonium gold salts, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Catalysis, nanomedicine engineering, Nanomedicine, Surface modification, 0210 nano-technology, energy

Abstract

The challenges of diazonium salts stabilization have been overcome by their isolation as metal salts such as tetrachloroaurate(III). The cleavage of molecular nitrogen from diazonium salts even at very low potential or on reducing surfaces by fine tuning the substituents on the phenyl ring expanded their applications as surface modifiers in forensic science, nanomedicine engineering, catalysis and energy. The robustness of the metal–carbon bonding produced from diazonium salts reduction has already opened an era for further applications. The integration of experimental and calculations in this field catalyzed its speedy progress. This review provides a narrative of the progress in this chemistry with stress on our recent contribution, identifies potential applications, and highlights the needs in this emerging field. For these reasons, we hope that this review paper serves as motivation for others to enter this developing field of surface modification originating from diazonium salts.

Published

2020

42. Global Hybrid Multiconfiguration Pair-Density Functional Theory

Author

Marcus D. Liebenthal, A. Eugene DePrince, and Mohammad Mostafanejad

Subjects

Physics, Molecular nitrogen, 010304 chemical physics, Exchange interaction, 01 natural sciences, Computer Science Applications, 0103 physical sciences, Molecule, Density functional theory, Statistical physics, Physics::Chemical Physics, Physical and Theoretical Chemistry, Functional theory, Scaling

Abstract

A global hybrid extension of multiconfiguration pair-density functional theory (MC-PDFT) is developed. Using a linear decomposition of the electron-electron repulsion term, a fraction λ of the nonlocal exchange interaction, obtained from variational two-electron reduced-density matrix (v2RDM)-driven complete active-space self-consistent field (CASSCF) theory, is combined with its local counterpart, obtained from an on-top pair-density functional. The resulting scheme (called λ-MC-PDFT) inherits the benefits of MC-PDFT (e.g., its simplicity and the resolution of the symmetry dilemma) and, when combined with the v2RDM approach to CASSCF, requires only polynomially scaling computational effort. As a result, λ-MC-PDFT can efficiently describe static and dynamical correlation effects in strongly correlated systems. The efficacy of the approach is assessed for several challenging multiconfigurational problems, including the dissociation of molecular nitrogen, the double dissociation of a water molecule, and the 1,3-dipolar cycloadditions of ozone to ethylene and ozone to acetylene in the O3ADD6 benchmark set.

Published

2020

43. Synthesis of β-Difluoroalkyl Azides via Elusive 1,2-Azide Migration

Author

Edward A. Anderson, Yongquan Ning, Giuseppe Zanoni, Xihe Bi, and Paramasivam Sivaguru

Subjects

chemistry.chemical_classification, Molecular nitrogen, General Chemical Engineering, Biochemistry (medical), Substrate (chemistry), 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Biochemistry, Combinatorial chemistry, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Functional group, Materials Chemistry, Electronic effect, Environmental Chemistry, Azide, 0210 nano-technology, Selectivity, Alkyl

Abstract

Summary The development of azide migration reactions is a formidable challenge because of the potential competition of side processes driven by the release of molecular nitrogen. Here, we report a conceptually novel 1,2-azide migration in an unprecedented gem-difluorination of the readily available α-vinyl azides, a transformation that enables the synthesis of a range of novel β-difluorinated alkyl azides. The practicality of the method is demonstrated by broad substrate scope, excellent functional group compatibility, and high yields. The migrating group selectivity can be tuned through electronic effects, and DFT calculations suggest 1,2-azide migration occurs via a three-membered azacyclic transition state. By using routine protocols, the β-difluorinated alkyl azide products can be easily transformed to biologically relevant β-difluorinated amines—common structural motifs in pharmaceuticals, thus demonstrating the utility of these fluorinated organic azides for pharmaceutical synthesis as well as other synthetically useful derivatives.

Published

2020

44. The influence of chosen fungicides on Azospirillum dinitrogen fixation in the soil

Author

Swędrzyńska, Dorota, Sawicka, Aleksandra, Malik, Kauser A., editor, Mirza, M. Sajjad, editor, and Ladha, J. K., editor

Published

1998

45. Production of Nitrides and Carbides by Gas-Phase Interstitial Modification

Author

Skomski, R., Brennan, S., Wirth, S., Grandjean, Fernande, editor, Long, Gary J., editor, and Buschow, K. H. J., editor

Published

1995

46. Numerical simulation of nitrogen oxide formation in dust furnaces

Author

Bulbul Ongar, Hristo Beloev, Iliya Iliev, Assem Ibrasheva, and Anara Yegzekova

Subjects

Atomic nitrogen, Physics, QC1-999, Coal particles, General Engineering, TJ1-1570, General Physics and Astronomy, Burner, Mechanical engineering and machinery, complex mixtures, Nitrogen oxides, Molecular nitrogen

Abstract

Even though natural sources of air pollution account for over 50 % of sulphur compounds, 93 % of nitrogen oxide which are the most dangerous artificial anthropogenic sources of air pollution and primarily associated with the combustion of fossil fuel. Coal-fired thermal power plants and industrial fuel-burning plants that emit large quantities of nitrogen oxides (NО and NО2), solids (ash, dust, soot), as well as carbon oxides, aldehydes, organic acids into the atmosphere pollute the environment in majority. In the present work, a mathematical model and a scheme for calculating the formation of nitrogen oxide has been developed. Also, the dependence of the rate of release of fuel nitrogen from coal particles at the initial stage of gasification and content of volatiles has been obtained. The main regularities of the formation of NOx at the initial section of the flame in the ignition zone of the swirl burner flame during the combustion of Ekibastuz coal have been revealed. Modern environmental requirements for the modernization of existing and the creation of new heat and power facilities determine the exceptional relevance of the development of effective methods and constructions to reduce emissions of nitrogen oxides, sulfur oxides and ash to 200, 300, and 100 mg/nm3 at a=1.4. The dust consumption in all experiments was kept constant and amounted to 0.042 g/s, as well as with the results of calculating the thermal decomposition of the Ekibastuz coal dust, the recombination of atomic nitrogen into nitrogen molecules, and the kinetics of the formation of fuel nitric oxide. It was found that despite the presence of oxygen in Ekibastuz coal for gases Odaf=11.8 % in an inert atmosphere, nitrogen oxides are not formed

Published

2022

47. Azametallic Electrochemistry

Author

Pickett, C. J., Pombeiro, A. J. L., editor, and McCleverty, J. A., editor

Published

1993

48. A Chemical Bond Theory of Transition-Metal-Dinitrogen Complexes

Author

Tang, Ao-Qing, Xu, Ji-Qing, and Hong, Guo-Fan, editor

Published

1992

49. Titan's atmosphere from voyager infrared observations: Parallels and differences with the primitive earth

Author

Coustenis, Athena, Heidmann, Jean, editor, and Klein, Michael J., editor

Published

1991

50. Improving the Thermosphere Ionosphere in a Whole Atmosphere Model by Assimilating GOLD Disk Temperatures

Author

Fazlul I Laskar, Nicholas Michael Pedatella, Mihail V. Codrescu, Richard W Eastes, and William E. McClintock

Subjects

Molecular nitrogen, Materials science, Far ultraviolet, Astrophysics::Solar and Stellar Astrophysics, Astrophysics::Earth and Planetary Astrophysics, Atmospheric model, Ionosphere, Thermosphere, Column (database), Astrophysics::Galaxy Astrophysics, Computational physics

Abstract

This is a netCDF4 file containing the GOLD equivalent effective temperatures and O/N2 from WACCMX+DART experiments and Specified Dynamics- WACCMX simulation. Greater description of the data in this file can be found in the file header information. Description of netCDF4 file formats ans how to read them can be found in the webpage: https://www.unidata.ucar.edu/software/netcdf/. The header information for the netcdf file is as below dimensions: nlats_gold = 52 ; nlons_gold = 46 ; ndays = 9 ; nut_gold = 11 ; nut_ecd = 24 ; nlats_ecd = 96 ; nlons_ecd = 144 ; variables: float latitude_gold(nlats_gold, nlons_gold) ; latitude_gold:units = "degree_north; -90 to +90" ; float longitude_gold(nlats_gold, nlons_gold) ; longitude_gold:units = "degree_east; -180 to +180" ; float latitude_ecd(nlats_ecd) ; latitude_ecd:units = "degree_north; -90 to +90" ; float longitude_ecd(nlons_ecd) ; longitude_ecd:units = "degree_east; -180 to +180" ; string dates(ndays) ; dates:long_name = "YYYYMMDD format date; e.g., 20181130 for November 30, 2018" ; byte ut_gold(nut_gold) ; ut_gold:units = "Universal Time for GOLD equivalent (hrs)" ; byte ut_ecd(nut_ecd) ; ut_ecd:units = "Universal Time for ECD(hrs)" ; float SD_EXP_Teff(ndays, nut_gold, nlats_gold, nlons_gold) ; SD_EXP_Teff:units = "K" ; SD_EXP_Teff:long_name = "GOLD equivalent temperature from SD-WACCMX" ; float DA_EXP1_Teff(ndays, nut_gold, nlats_gold, nlons_gold) ; DA_EXP1_Teff:units = "K" ; DA_EXP1_Teff:long_name = "GOLD equivalent temperature from WACCMX+DART Experiment 1" ; float DA_EXP2_Teff(ndays, nut_gold, nlats_gold, nlons_gold) ; DA_EXP2_Teff:units = "K" ; DA_EXP2_Teff:long_name = "GOLD equivalent temperature from WACCMX+DART Experiment 2" ; float SD_EXP_ON2(ndays, nut_gold, nlats_gold, nlons_gold) ; SD_EXP_ON2:long_name = "SD-WACCMX ratio of atomic oxygen to molecular nitrogen column densities" ; float DA_EXP1_ON2(ndays, nut_gold, nlats_gold, nlons_gold) ; DA_EXP1_ON2:long_name = "WACCMX+DART Experiment 1 ratio of atomic oxygen to molecular nitrogen column densities" ; float DA_EXP2_ON2(ndays, nut_gold, nlats_gold, nlons_gold) ; DA_EXP2_ON2:long_name = "WACCMX+DART Experiment 2 ratio of atomic oxygen to molecular nitrogen column densities" ; float SD_EXP_ECD(ndays, nut_ecd, nlats_ecd, nlons_ecd) ; SD_EXP_ECD:units = "TECu" ; SD_EXP_ECD:long_name = "SD-WACCMX electron column density" ; float DA_EXP1_ECD(ndays, nut_ecd, nlats_ecd, nlons_ecd) ; DA_EXP1_ECD:units = "TECu" ; DA_EXP1_ECD:long_name = "WACCMX+DART Experiment 1 electron column density" ; float DA_EXP2_ECD(ndays, nut_ecd, nlats_ecd, nlons_ecd) ; DA_EXP2_ECD:units = "TECu" ; DA_EXP2_ECD:long_name = "WACCMX+DART Experiment 2 electron column density" ; // global attributes: :description = "GOLD Equivalent Temperature and O_by_N2, Electron Column Density from Assimilation and Control simulation; missing data: NaN" ; :history = "Created 2022-01-03 22:12:39.152981"

Published

2021