Search results for "Electronegativity"

showing 10 items of 61 documents

Ternary transition metals sulfides in hydrotreating catalysis.

2007

International audience; Pure microcrystalline barium molybdate BaMoO4 and barium tungstate BaWO4 materials were prepared by molten flux reaction using alkali metal nitrates as reaction media. The obtained crystals have rhombic shape and expose mostly (111) crystallographic planes. Their mean size depends on the flux temperature and the nature of the alkali metal cation. Monomeric molybdate and tungstate used as precursors yield target products already at 673 K whereas if polymerized ammonium oxosalts were used, then higher temperatures were necessary to obtain barium salts. The optimal temperature for the preparation of pure crystals with well defined shape was found to be near 773 K. UV–vi…

"Volcano plots"Inorganic chemistryTernary sulfides02 engineering and technology010402 general chemistryHeterogeneous catalysis01 natural sciencesCatalysisCatalysis"Hydrodesulfurization"[PHYS.PHYS.PHYS-CHEM-PH] Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]Electronegativitychemistry.chemical_compoundElectronegativityTransition metalThiopheneBond energyVolcano plotsComputingMilieux_MISCELLANEOUSHydrodesulfurization"Ternary sulfides"Process Chemistry and Technology[CHIM.CATA]Chemical Sciences/Catalysis021001 nanoscience & nanotechnology[SDE.ES]Environmental Sciences/Environmental and Society0104 chemical sciences[ PHYS.PHYS.PHYS-CHEM-PH ] Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]chemistry[PHYS.PHYS.PHYS-CHEM-PH]Physics [physics]/Physics [physics]/Chemical Physics [physics.chem-ph]"Electronegativity"0210 nano-technologyTernary operationHydrodesulfurization
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A half-metallic half-Heusler alloy having the largest atomic-like magnetic moment at optimized lattice constant

2016

For half-Heusler alloys, the general formula is XYZ, where X can be a transition or alkali metal element, Y is another transition metal element, typically Mn or Cr, and Z is a group IV element or a pnicitide. The atomic arrangements within a unit-cell show three configurations. Before this study, most of the predictions of half-metallic properties of half-Heusler alloys at the lattice constants differing from their optimized lattice constant. Based on the electropositivity of X and electronegativity of Z for half-Heusler alloys, we found that one of the configurations of LiCrS exhibits half-metallic properties at its optimized lattice constant of 5.803Å, and has the maximum atomic-like magn…

010302 applied physicsCondensed matter physicsMagnetic momentChemistryAlloyGeneral Physics and Astronomy02 engineering and technologyengineering.material021001 nanoscience & nanotechnologyAlkali metal01 natural scienceslcsh:QC1-999ElectronegativityMetalCondensed Matter::Materials ScienceLattice constantTransition metalGroup (periodic table)visual_art0103 physical sciencesengineeringvisual_art.visual_art_medium0210 nano-technologylcsh:PhysicsAIP Advances
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Half-Heusler compounds: novel materials for energy and spintronic applications

2012

Half-Heusler compounds are an impressive class of materials with a huge potential for different applications such as future energy applications and for spintronics. The semiconducting Heusler compounds can be identified by the number of valence electrons. The band gap can be tuned between 0 and 4 eV by the electronegativity difference of the constituents. Magnetism can be introduced in these compounds by using rare-earth elements, manganese or ‘electron’ doping. Thus, there is a great interest in the fields of thermoelectrics, solar cells and diluted magnetic semiconductors. The combination of different properties such as superconductivity and topological edge states leads to new multifunct…

010302 applied physicsMaterials scienceSpintronicsCondensed Matter::OtherBand gapMagnetismNanotechnology02 engineering and technologyNarrow-gap semiconductorMagnetic semiconductor021001 nanoscience & nanotechnologyCondensed Matter PhysicsThermoelectric materials01 natural sciences7. Clean energyElectronic Optical and Magnetic MaterialsElectronegativityCondensed Matter::Materials Science0103 physical sciencesMaterials ChemistryCondensed Matter::Strongly Correlated ElectronsElectrical and Electronic Engineering0210 nano-technologyValence electronSemiconductor Science and Technology
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Substituent effect on the σ- and π-electron structure of the nitro group and the ring in meta- and para-substituted nitrobenzenes

2017

An application of quantum chemical modeling allowed us to investigate a substituent effect on a σ and π electron structure of a ring and the nitro group in a series of meta- and para-X-substituted nitrobenzene derivatives (X = NMe2, NHMe, NH2, OH, OMe, Me, H, F, Cl, CF3, CN, CHO, COMe, CONH2, COOH, NO2, and NO). The obtained pEDA and sEDA parameters (the π- and σ-electron structure characteristics of a given planar fragment of the system obtained by the summation of π- and σ-orbital occupancies, respectively) of the NO2 group and the benzene ring allowed us to reveal the impact of the substituents on their mutual relations as well as to analyze them from the viewpoint of substituent charact…

010405 organic chemistryStereochemistrySubstituent010402 general chemistryRing (chemistry)Resonance (chemistry)01 natural sciences0104 chemical sciencesNitrobenzeneElectronegativitychemistry.chemical_compoundCrystallographychemistryGroup (periodic table)NitroPhysical and Theoretical ChemistryBenzeneJournal of Physical Chemistry A
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The electron affinity of astatine

2020

One of the most important properties influencing the chemical behavior of an element is the electron affinity (EA). Among the remaining elements with unknown EA is astatine, where one of its isotopes, 211At, is remarkably well suited for targeted radionuclide therapy of cancer. With the At− anion being involved in many aspects of current astatine labeling protocols, the knowledge of the electron affinity of this element is of prime importance. Here we report the measured value of the EA of astatine to be 2.41578(7) eV. This result is compared to state-of-the-art relativistic quantum mechanical calculations that incorporate both the Breit and the quantum electrodynamics (QED) corrections and…

Atomic Physics (physics.atom-ph)ENERGIESGeneral Physics and AstronomyElectron01 natural sciences7. Clean energyPhysics - Atomic PhysicsElectronegativityastatiinielectron affinityPhysics::Atomic Physicslcsh:SciencePhysicsMultidisciplinary010304 chemical physicsIsotopeQELECTRONEGATIVITYMultidisciplinary SciencesHalogenScience & Technology - Other Topicsddc:500Atomic physicsBASIS-SET CONVERGENCE[CHIM.RADIO]Chemical Sciences/RadiochemistryRadioactive decayChemical physicsAstrophysics::High Energy Astrophysical PhenomenaScienceComputer Science::Neural and Evolutionary ComputationOther Fields of PhysicsPOTENTIALSFOS: Physical scienceschemistry.chemical_elementphysics.atom-phGeneral Biochemistry Genetics and Molecular BiologyArticleIonElectron affinity0103 physical sciences[CHIM]Chemical Sciences010306 general physicsAstatineDETECTORScience & TechnologySTABILITYRadiochemistry500General Chemistrychemistrylcsh:Qastatine
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Identification of passive layers on Co in Alkaline solutions by photocurrent spectroscopy

2005

The photoelectrochemical behavior of passive films on Co has been studied as a function of the polarizing voltage and electrolyte composition. Passive layers formed at 0 V (standard hydrogen electrode, SHE) in 0.1 M NaOH consisted of Co(OH) 2 , whose bandgap value has been found to be 1.85 eV. Higher bandgap values (2.75 eV) have been measured for passive films formed in borate buffer at 0 V (SHE), which are mainly consist of CoO. The Eg values have been related to the film composition on the basis of a correlation between the bandgap of passive films and the electronegativity of their constituents.

BORATE BUFFER SOLUTION; SEMICONDUCTIVE PROPERTIES; FILM;PhotocurrentMaterials scienceStandard hydrogen electrodeSEMICONDUCTIVE PROPERTIESBand gapGeneral Chemical EngineeringAnalytical chemistryBORATE BUFFER SOLUTIONElectronegativitySettore ING-IND/23 - Chimica Fisica ApplicataBORATE BUFFERElectrochemistryGeneral Materials ScienceElectrical and Electronic EngineeringPhysical and Theoretical ChemistrySpectroscopyElectrolyte compositionFILM
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A semiempirical approach to the estimate of optical band gap in group-III nitrides alloys

2008

Band gap electronegativitySettore ING-IND/23 - Chimica Fisica Applicata
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A semiempirical correlation between the optical band gap of hydroxides and the electronegativity of their constituents

2000

In analogy with previous results on anhydrous oxides, a correlation is proposed between the optical band gap of hydroxides and the electronegativities of their constituents. Based on the experimental results on passive hydrated layers on metals obtained in our laboratory and the literature data, it is found that the hydroxide band gap varies with the square of the difference between the electronegativities of the metallic cation and the hydroxyl group. Like in the case of anhydrous oxides, two different interpolation lines have been found forsp-metal andd-metal hydroxides, respectively. The proposed correlations predict semiconducting or insulating behavior even for the most electronegative…

Band gapChemistryInorganic chemistryAnalytical chemistryPhotoelectric effectElectroluminescenceElectrochemistryMetalElectronegativitychemistry.chemical_compoundvisual_artElectrochemistryvisual_art.visual_art_mediumAnhydrousHydroxideRussian Journal of Electrochemistry
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Gold(i) sulfide: Unusual bonding and an unexpected computational challenge in a simple solid

2019

We report the experimental high-pressure crystal structure and equation of state of gold(I) sulfide (Au2S) determined using diamond-anvil cell synchrotron X-ray diffraction. Our data shows that Au2S has a simple cubic structure with six atoms in the unit cell (four Au in linear, and two S in tetrahedral, coordination), no internal degrees of freedom, and relatively low bulk modulus. Despite its structural simplicity, Au2S displays very unusual chemical bonding. The very similar and relatively high electronegativities of Au and S rule out any significant metallic or ionic character. Using a simple valence bond (Lewis) model, we argue that the Au2S crystal possesses two different types of cov…

Bulk modulusMaterials science010405 organic chemistryGold(I) sulfideIonic bondingGeneral ChemistryCubic crystal system010402 general chemistry01 natural sciences0104 chemical sciencesElectronegativitychemistry.chemical_compoundChemical bondchemistryChemical physicsCovalent bondValence bond theory
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Effect of electron-withdrawing substituents on the electrophilicity of carbonyl carbons

2005

Indexación: Scopus The substituent effects on the carbonyl carbon atom for a series of twelve substituted phenyl acetates have been rationalized using a global electrophilicity index. This index is linearly correlated with the experimental reaction rate coefficients. We found that, in contrast to the proposed interpretation based on experimental 13C NMR chemical shifts and ground state destabilization calculations, the electrophilicity of carbonyl compounds increases due to the effect promoted by electron-withdrawing groups in these systems. https://www.sciencedirect.com/science/article/pii/S0040402004018046?via%3Dihub

Carbon atomChemistryChemical shiftOrganic ChemistrySubstituentcarbonyl derivativecarbonylCarbon-13 NMRcarbon nuclear magnetic resonancePhotochemistryDFT calculationsBiochemistryMedicinal chemistryParrReaction rateElectron-withdrawing effectschemistry.chemical_compoundElectronegativityDrug DiscoveryElectrophilePolar effectChemical Reactivityphenylacetic acid derivativeElectrophilicityGround state
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