Search results for "State"

showing 10 items of 9165 documents

Technologies of Re-familization

2019

In this chapter, the notion of re-familization is introduced, to allow for a better grasp of the cohesive impact of digital technologies in the context of extended and geographically distributed families. In the field of social policy, the notion of re-familization implies a reversal of the politics of de-familization that once was the hallmark of the golden-era welfare state. The argument is made that family-initiated uses of digital media and communication technology in response to (older) family members’ daily help and care needs resonate well with the idea behind re-familization. In conclusion, the chapter presents several ways in which re-familization manifests itself in the everyday l…

Argumentbusiness.industryInformation and Communications TechnologyField (Bourdieu)Welfare stateContext (language use)SociologyPublic relationsbusinessEveryday lifeSocial policyDigital media
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Aparatūra “Lotoss” poliuretāna plastmasas detaļu atliešanai kosmosā

2020

1980. gadā kosmosa stacijā “Salūts” pirmoreiz kosmonautikas vēsturē tika realizēts putupoliuretāna ieguves eksperiments mikrogravitācijas apstākļos, kura rezultāta tika iegūtas jaunas atziņas par ķīmiski tehnoloģisko procesu norisi kosmosā. Kosmosā tapa Maskavas olimpisko spēļu simbola lācīša figūra. Iekārtu "Lotoss", kas pašreiz atrodas Latvijas Ķīmijas vēstures muzeja krājumā, LPSR Zinātņu Akadēmijas Koksnes ķīmijas institūtā izstrādājis latviešu ķīmiķis, ķīmijas doktors, izgudrotājs un gleznotājs Arnolds Alksnis, un tā domāta polimerizācijas reakciju pētīšanai bezsvara stāvoklī.

Arnolds Alksnispolymer chemistryweightless state1980 Summer Olympicsolimpisko spēļu talismanspoliuretāna putasThe Olympic Mishkabezsvara stāvoklispolyurethanepoliuretāns:NATURAL SCIENCES::Chemistry::Organic chemistry::Polymer chemistry [Research Subject Categories]1980. gada vasaras olimpiskās spēlesLatvijas Valsts Koksnes ķīmijas institūtsLotosspolimēru ķīmija
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Efficient ultraviolet-light energy dissipation by an aromatic ketone.

2010

Experimental evidence on the efficiency of 2,2'4,4'-tetramethoxybenzil for UV-light energy dissipation is provided. This non-phenolic aromatic ketone has a low energy triplet which quickly decays to the ketone ground state, thus avoiding the generation of undesirable reactive species. El Moncef, Abdelkarim, elmonab@alumni.uv.es ; Cuquerella Alabort, Maria Consuelo, Chelo.Cuquerella@uv.es ; Zaballos Garcia, Elena, Elena.Zaballos@uv.es ; Ramirez de Arellano Sanchez, Maria del Carmen, Carmen.Ramirezdearellano@uv.es ; Stiriba, Salah Eddine, Salah.Stiriba@uv.es ; Perez Prieto, Julia, Julia.Perez@uv.es

Aromatic ketoneKetoneUltraviolet RaysUNESCO::QUÍMICAUV-lightPhotochemistry:QUÍMICA [UNESCO]CatalysisLow energyMaterials ChemistryUltraviolet lightTetramethoxybenzil ; UV-light ; Reactive ; Aromatic KetoneAromatic Ketonechemistry.chemical_classificationMolecular StructureUNESCO::QUÍMICA::Química analíticaMetals and AlloysGeneral ChemistryDissipationKetonesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialschemistryReactiveCeramics and Composites:QUÍMICA::Química analítica [UNESCO]TetramethoxybenzilGround stateChemical communications (Cambridge, England)
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Application of SQMFF Vibrational Calculations to Transition States:  DFT and ab Initio Study of the Kinetics of Methyl Azide and Ethyl Azide Thermoly…

1998

DFT including nonlocal corrections and ab initio calculations at MP2 and MP4 levels of theory have been performed in order to provide information concerning the mechanism of the rate limiting step of the thermal decomposition of methyl azide and ethyl azide. The chemically interesting points of the ground-state potential energy surface have been fully optimized, and a detailed normal-mode analysis for the reagents and the transition states is presented. The well-established scaled quantum mechanical force field method has been used to obtain reliable vibrational frequencies for these molecular structures. The force fields of transition states have been modified by using the scale factors co…

Arrhenius equationAb initioThermodynamicsTransition statesymbols.namesakeTransition state theorychemistry.chemical_compoundchemistryAb initio quantum chemistry methodsComputational chemistryPotential energy surfacesymbolsPhysics::Chemical PhysicsPhysical and Theoretical ChemistryGround stateMethyl azideThe Journal of Physical Chemistry A
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Role of vitreous matrix on the optical activity of Ge-doped silica

2003

Abstract We report an experimental study on the relationship between the optical activity of Ge-oxygen deficient centers and dynamic properties and conformational heterogeneity of vitreous matrix in silica. We focus our attention on the absorption band at ∼5.2 eV (B 2β ) and on the two related emissions at ∼4.2 eV (α E ) and at ∼3.1 eV (β). From the temperature dependence of B 2β band we estimate a mean energy value of 26 meV for local vibrational modes coupled to the electronic transition, suggesting that the chromophore and its surrounding have access to low frequency dynamics. From the thermal behavior of the two emissions we distinguish the two competitive relaxation processes from the …

Arrhenius equationChemistryRelaxation (NMR)General ChemistryActivation energyChromophoreCondensed Matter PhysicsMolecular physicsMolecular electronic transitionsymbols.namesakeNuclear magnetic resonanceAbsorption bandExcited statesymbolsGeneral Materials ScienceTriplet stateJournal of Physics and Chemistry of Solids
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A theory ofnonverticaltriplet energy transfer in terms of accurate potential energy surfaces: The transfer reaction from π,π* triplet donors to 1,3,5…

2004

Triplet energy transfer (TET) from aromatic donors to 1,3,5,7-cyclooctatetraene (COT) is an extreme case of "nonvertical" behavior, where the transfer rate for low-energy donors is considerably faster than that predicted for a thermally activated (Arrhenius) process. To explain the anomalous TET of COT and other molecules, a new theoretical model based on transition state theory for nonadiabatic processes is proposed here, which makes use of the adiabatic potential energy surfaces (PES) of reactants and products, as computed from high-level quantum mechanical methods, and a nonadiabatic transfer rate constant. It is shown that the rate of transfer depends on a geometrical distortion paramet…

Arrhenius equationGeneral Physics and AstronomyTriplet stateMolecular configurationsAcceptorPotential energyGround statesUNESCO::FÍSICA::Química físicaCyclooctatetraenechemistry.chemical_compoundsymbols.namesakeTransition state theoryOrganic compounds ; Potential energy surfaces ; Triplet state ; Ground states ; Molecular configurationschemistryPotential energy surfacesOrganic compoundssymbolsMoleculePhysics::Chemical PhysicsPhysical and Theoretical ChemistryTriplet stateAtomic physics:FÍSICA::Química física [UNESCO]Adiabatic processThe Journal of Chemical Physics
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Competitive relaxation processes of oxygen deficient centers in silica

2003

Physical review / B 67, 033202 (2003). doi:10.1103/PhysRevB.67.033202

Arrhenius equationMaterials sciencePhotoluminescenceQuenching (fluorescence)Oxygen deficientRelaxation (NMR)530symbols.namesakeAmplitudeExcited statesymbolsddc:530Atomic physicsLuminescencePhysical Review B
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Dynamics of spin state conversion processes in the solid state

1989

High spin (HS) ⇌ low spin (LS) conversions in transition metal complexes are nonradiative transitions between spin states. In this contribution, we present a study of the temperature and pressure dependence of the HS ⇌ LS intersystem crossing dynamics. For some iron(II) spin-crossover complexes, the rate constants were determined by line shape analysis of57Fe Mossbauer spectra. Their temperature dependence is described by an Arrhenius equation, their pressure dependence is interpreted within absolute rate theory. HS → LS conversion rates at low temperatures were determined from the relaxation of light-induced formation of HS states, monitored by optical spectroscopy. Deviations from a simpl…

Arrhenius equationNuclear and High Energy PhysicsSpin statesChemistryThermodynamicsCondensed Matter PhysicsAtomic and Molecular Physics and Opticssymbols.namesakeReaction rate constantIntersystem crossingTransition metalComputational chemistrysymbolsPhysical and Theoretical ChemistrySpectroscopyQuantum tunnellingShape analysis (digital geometry)Hyperfine Interactions
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Phonon coupling of non-bridging oxygen hole center with the silica environment: Temperature dependence of the 1.9 eV emission spectra

2008

Abstract We report an experimental study on the shape of the 1.9 eV emission associated with non-bridging oxygen hole centers in silica and its temperature dependence, from 4 up to 300 K, under visible and ultraviolet excitation. Our analysis points out that these defects are coupled with their environment by phonons whose contribution can be described by the single mode of mean frequency between 300–400 cm −1 and Huang–Rhys factor of ∼3. On increasing the temperature, the luminescence intensity undergoes a thermal quenching caused by non-radiative processes, its deviation from a pure Arrhenius law can be accounted for by an uniform distribution of activation energy, from 0.002 to 0.05 eV. …

Arrhenius equationPhotoluminescenceLuminescenceChemistryPhononBiophysicsSilicaGeneral ChemistryActivation energyCondensed Matter PhysicsPhonon couplingBiochemistryAtomic and Molecular Physics and OpticsPoint defectsymbols.namesakeExcited statesymbolsEmission spectrumAtomic physicsLuminescenceExcitation
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Cationic Mn12 Single-Molecule Magnets and Their Polyoxometalate Hybrid Salts

2003

A carboxy-substituted alkylammonium salt, namely, (4-carboxybenzyl)tributylammonium hexafluorophosphate, ZHPF(6), was prepared and used as incoming carboxylate ligand in a ligand-exchange reaction with [Mn(12)O(12)(O(2)CCH(3))(16)(H(2)O)(4)] (1) to afford a new Mn(12) single-molecule magnet (SMM), [Mn(12)O(12)(Z)(16)(H(2)O)(4)][PF(6)](16) (2), bearing 16 cationic units appended in the periphery. This compound behaves as a single-molecule magnet, exhibiting an out-of-phase ac magnetic susceptibility chi' '(M) signal that shows a single maximum in the 3.1-5.4 K temperature range. The frequency dependence of the maximum follows an Arrhenius law, with an effective energy barrier for reorientati…

Arrhenius equationZeeman effectStereochemistryAtmospheric temperature rangeMagnetic susceptibilityInorganic ChemistryMagnetizationchemistry.chemical_compoundCrystallographysymbols.namesakechemistryHexafluorophosphatesymbolsCarboxylatePhysical and Theoretical ChemistryGround stateInorganic Chemistry
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