Search results for "free-volume"

showing 6 items of 6 documents

Positron Annihilation Lifetime Spectroscopy Insight on Free Volume Conversion of Nanostructured MgAl2O4 Ceramics

2021

H.K. and A.I.P. are grateful for the support from the COST Action CA17126. H.K. was also supported by the Ministry of Education and Science of Ukraine (project for young researchers No. 0119U100435). In addition, I.K. and H.K. were also supported by the National Research Foundation of Ukraine via project 2020.02/0217, while the research of A.I.P. was funded by the Latvian research council via the Latvian National Research Program under the topic ?High-Energy Physics and Accelerator Technologies?, Agreement No: VPP-IZM-CERN-2020/1-0002. In addition, the research of A.I.P. has been supported by the Latvian-Ukrainian Grant LV-UA/2021/5. The Institute of Solid State Physics, University of Latvi…

010302 applied physicsPositron trappingGeneral Chemical EngineeringFree-volume defectsPositron annihilationpositron annihilationnanoporespositronium decay02 engineering and technologynanostructured ceramicsfree-volume defectsnanostructured ceramics; positron annihilation; positronium decay; positron trapping; free-volume defects; nanopores021001 nanoscience & nanotechnologyPositronium decay7. Clean energy01 natural sciencesNanoporesChemistry0103 physical sciences:NATURAL SCIENCES [Research Subject Categories]positron trappingGeneral Materials Science0210 nano-technologyNanostructured ceramicsQD1-999Nanomaterials
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Evolution of Free Volumes in Polycrystalline BaGa2O4 Ceramics Doped with Eu3+ Ions

2021

H.K. and Y.K. would like to thank A. Ingram for assistance in PAL experiments. The authors thank E.A. Kotomin and M. Brik for the many useful discussions. The research was (partly) performed in the Institute of Solid State Physics, University of Latvia ISSP UL. ISSP UL as the Center of Excellence is supported through the Framework Program for European universities Union Horizon 2020, H2020-WIDESPREAD-01–2016–2017-TeamingPhase2 under Grant Agreement No. 739508, CAMART2 project.

CeramicsGeneral Chemical EngineeringFree-volume defects02 engineering and technologydopingceramics01 natural sciencesInorganic ChemistryFragmentationfragmentation0103 physical sciencesceramics; doping; free-volume defects; positron annihilation; agglomeration; fragmentationDopingGeneral Materials Science010302 applied physicsagglomerationCrystallographyAgglomerationPositron annihilationpositron annihilationfree-volume defects021001 nanoscience & nanotechnologyCondensed Matter PhysicsQD901-999:NATURAL SCIENCES [Research Subject Categories]0210 nano-technologyCrystals
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Positron Annihilation in IR Transmitting GeS₂-Ga₂S₃ Glasses

2015

Positron annihilation lifetime spectroscopy combined with Doppler broadening of annihilation radiation was applied to study free-volume entities in GeS2-Ga2S3 glasses affected by Ga additions. It is shown that Ga-related void sub-system plays a decisive role in positron trapping process, while the overall density variation is defined mainly by Ge-related sub-system. These results serve as basis for new characterization route for inner free-volume structure of these glasses.

Chalcogenide GlassPositron TrappingFree-Volume EntitiesSolid State Phenomena
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Positronium as a probe in natural polymers: decomposition in starch

2009

Ortho-positronium (o-Ps) is used as a probe in positron annihilation lifetime spectroscopy (PALS) experiments, to characterise the behaviour of free volumes in natural starch samples, as a function of temperature (T). Up to about 540 K, the o-Ps intensity, I(3), remains constant at 26.2% while its lifetime, tau(3), is found to increase linearly. Both parameters undergo a decrease above this T, due to the onset of decomposition, which results in a shrinking of the sample pellets. The results indicate that the glass transition temperature should be above 501 K. Data from thermal gravimetry analysis (TGA) measurements are well described by supposing a first order process for the survival proba…

GLASS-TRANSITIONAnalytical chemistryGeneral Physics and AstronomyElectrons02 engineering and technologyActivation energy01 natural sciencesPositroniumNuclear magnetic resonance0103 physical sciencesPhysical and Theoretical ChemistrySpectroscopyThermal analysisBiological Products010304 chemical physicsChemistrySpectrum AnalysisTransition temperatureTemperatureStarchFREE-VOLUME021001 nanoscience & nanotechnology[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry[ CHIM.POLY ] Chemical Sciences/PolymersThermogravimetry[CHIM.POLY]Chemical Sciences/PolymersThermogravimetry[ CHIM.THEO ] Chemical Sciences/Theoretical and/or physical chemistryVolume fraction0210 nano-technologyGlass transitionANNIHILATION LIFETIMEPhysical Chemistry Chemical Physics
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Self-Diffusion of Small Molecules into Rubbery Polymers: A Lattice Free-Volume Theory

2010

In the framework of the Free Volume Theory, a new equation was derived for the evaluation of self-diffusion coefficients of small molecules in polymers above the mixture glass transition temperature. The derivation of the equation turned out to be straightforward once the equivalence between the free-volume and the unoccupied volume given by Thermodynamic Lattice Theories is assumed. A parameter evaluation scheme is proposed, which is substantially simpler compared to the conventional Vrentas-Duda approach, even without losing generality. The key assumption is discussed and its consistency is verified from a numerical viewpoint. A comparison with experimental solvent self-diffusion coeffici…

chemistry.chemical_classificationSelf-diffusionPolymers and PlasticsChemistrydiffusionThermodynamicsConcentration effectBinary numbermodelingPolymerCondensed Matter PhysicsSmall moleculeAmorphous solidfree-volumethermodynamicLattice (order)Materials ChemistryamorphouPhysical and Theoretical ChemistryGlass transition
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Free-volume Study in GeS2-Ga2S3-CsCl Chalcohalide Glasses Using Positron Annihilation Technique

2015

Abstract Positron annihilation lifetime spectroscopy combined with Doppler broadening of annihilation radiation was applied to study free-volume entities in Ge-Ga-S glasses having different amount of CsCl additives. It is shown that the structural changes caused by CsCl additives can be adequately described by positron trapping modes determined within two-state model. The results testify in a favor of rather unchanged nature of corresponding free-volume voids responsible for positron trapping in the studied glasses, when mainly concentration of these traps is a subject to most significant changes with composition.

free-volume entitiesMaterials scienceChalcogenidePhysics and Astronomy(all)Positron trappingMolecular physicschemistry.chemical_compoundchalcogenideVolume (thermodynamics)chemistryAnnihilation radiationchalcohalidepositron trappingSpectroscopyDoppler broadeningPositron annihilationglassPhysics Procedia
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