Search results for "IRRADIATION"

showing 10 items of 1012 documents

Investigation on the ganaration process of HO2• radicals by γ-ray irradiation in O2-loaded fumed silica

2013

Abstract We report an experimental investigation on the effects of γ-ray irradiation in three types of fumed silica previously loaded with O 2 molecules. Our data indicate that the main effect of irradiation in these systems is to generate a very large concentration of HO 2 interstitial radicals (about 10 18  molecules/cm 3 ). Furthermore, the number of generated HO 2 was found to be larger in the samples with higher O 2 contents before irradiation. This correlation suggests that HO 2 radicals are induced by reaction of interstitial O 2 molecules with radiolytic H atoms, as previously suggested for O 2 -loaded bulk amorphous silicon dioxide (a-SiO 2 or silica) samples. However, at variance …

HydrogenChemistryRadicalchemistry.chemical_elementO2Condensed Matter PhysicsPhotochemistryOxygenElectronic Optical and Magnetic Materialslaw.inventionlawHO2•RadiolysisRaman spectroscopyMaterials ChemistryCeramics and CompositesOrganic chemistryMoleculeFumed silicaIrradiationElectron paramagnetic resonanceElectron paramagnetic resonance spectroscopyFumed silica
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Photochemical Size Reduction of CdSe and CdSe/ZnS Semiconductor Nanoparticles Assisted by nπ* Aromatic Ketones

2009

A novel effect of n pi* aromatic ketones on the quantum dots optical properties is reported. By controlling experimental conditions such as time of irradiation, presence of air in the media, hydrogen donor capacity of the solvent, and irradiation wavelength, core and core-shell CdSe QDs can be resized as convenient.

HydrogenChemistrySize reductionAromatic ketonestechnology industry and agriculturechemistry.chemical_elementGeneral Chemistryequipment and suppliesPhotochemistryBiochemistryCatalysisSolventWavelengthColloid and Surface ChemistryQuantum dotIrradiationSemiconductor NanoparticlesJournal of the American Chemical Society
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Optical Gating of Photosensitive Synthetic Ion Channels

2011

4-oxo-4-(pyren-4-ylmethoxy) butanoic acid is used as a photolabile protecting group to show the optical gating of nanofluidic devices based on synthetic ion channels. The inner surface of the channels is decorated with monolayers of photolabile hydrophobic molecules that can be removed by irradiation, which leads to the generation of hydrophilic groups. This process can be exploited in the UV-light-triggered permselective transport of ionic species in aqueous solution through the channels. The optical gating of a single conical nanochannel and multichannel polymeric membranes is characterised experimentally and theoretically by means of current-voltage and selective permeation measurements,…

Hydrophilic groupsMaterials scienceSynthetic ion channelsLight sensitive materialsHydrophobicitySynthetic membraneNanotechnologyNano-fluidic devicesGatingIonIonic transportsBiomaterialsPolymeric membranesOptical gatingPhotosensitivityOptical gatingsSynthetic ion channelsMonolayerElectrochemistryControlled releasePhotolabile protecting groupsIonic speciesPolymer membranesHydrophobic moleculesFunctional polymersSelective permeationHydrophilicityMultifunctional devicesMonolayersIonsAqueous solutionCurrent rectificationUV-light irradiationMulti-channelPermeationCondensed Matter PhysicsNanostructuresElectronic Optical and Magnetic MaterialsData processingPhotosensitive nanostructuresFISICA APLICADAIrradiationNano channelsInner surfacesFunctional polymersCurrent voltageAdvanced Functional Materials
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Tumour tissue monitoring during photodynamic and hyperthermic treatment using bioimpedance spectroscopy.

2003

Electrical bioimpedance spectroscopy is a fast and relatively easily applicable method for tissue characterization. In the frequency range up to 10 MHz, current conduction through tissue is mainly determined by tissue structure, i.e. the extra- and intra-cellular compartments and the insulating cell membranes. Therefore, changes in the extra- and intra-cellular fluid volumes are reflected in the impedance spectra. Investigations of tumours (DS sarcoma, implanted on the hind foot dorsum of rats) during treatment with localized hyperthermia (HT), photodynamic therapy (PDT) and the combination of these two components were carried out using impedance spectroscopy in the frequency range of 37 Hz…

HyperthermiaMalePhysiologymedicine.medical_treatmentBiomedical EngineeringBiophysicsPhotodynamic therapySoft Tissue NeoplasmsRats Sprague-DawleyPhysiology (medical)Extracellular fluidExtracellularmedicineElectric ImpedanceAnimalsEdemaIrradiationChemistrySpectrum AnalysisSarcomaHyperthermia Inducedmedicine.diseaseDielectric spectroscopyBody FluidsHindlimbRatsMembranePhotochemotherapyIntracellularNeoplasm TransplantationBiomedical engineeringPhysiological measurement
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Effect of hyperthermia on tumor blood flow.

1984

Differences in blood perfusion rates between tumors and normal tissue can be utilized to selectively heat many solid tumors. Blood flow in normal tissues is considerably increased at temperatures commonly applied during localized hyperthermia. In contrast, tumor blood flow may respond to localized heat typically in two different blood flow patterns: Flow may either decrease continuously with increasing exposure time and/or temperature or flow may exhibit a transient increase followed by a decline. A decrease in blood flow at high thermal doses can be observed in most of the tumors, whereas an increase in flow at low thermal doses seems to occur less frequently. The inhibition of blood flow …

Hyperthermiamedicine.medical_specialtyHot TemperatureTime FactorsPhysiologyChemistryMicrocirculationNormal tissueBlood flowNeoplasms Experimentalmedicine.diseaseRatsMiceCell killingEndocrinologyTreatment modalityRegional Blood FlowPhysiology (medical)Internal medicineCancer cellmedicineAnimalsIrradiationPerfusionBlood Flow VelocityBiorheology
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Depth profiles of aggregate centers and nanodefects in LiF crystals irradiated with 34 MeV 84Kr, 56 MeV 40Ar and 12 MeV 12C ions

2018

I. Manika, J. Maniks and R. Zabels acknowledge the national project IMIS2. A. Dauletbekova, A. Akilbekov, M. Zdorovets and A. Seitbayev acknowledge the GF AP05134257of Ministry of Education and Science the Republic of Kazakhstan.

IONSMaterials sciencePhotoluminescenceF2 AND F3^+ CENTERSDislocationsAGGREGATESFLUORINE COMPOUNDS02 engineering and technologyETCHING7. Clean energy01 natural sciencesFluenceENERGY DISSIPATIONIonIRRADIATION EXPERIMENTSLIF CRYSTALION BOMBARDMENT0103 physical sciencesF2 and F3 + centersMaterials Chemistry:NATURAL SCIENCES:Physics [Research Subject Categories]IrradiationLUMINESCENCE INTENSITYPhotoluminescenceLITHIUM COMPOUNDS010302 applied physicsLiF crystalsNANOHARDNESSDISLOCATIONS (CRYSTALS)Surfaces and InterfacesGeneral ChemistryNanoindentation021001 nanoscience & nanotechnologyCondensed Matter PhysicsIsotropic etchingSurfaces Coatings and FilmsLASER SCANNING CONFOCAL MICROSCOPYNANOINDENTATION TECHNIQUESIon irradiationCOLOR CENTERSHardeningELECTRONIC ENERGY LOSSAtomic physicsDislocationLUMINESCENCE SIGNALS0210 nano-technologyLuminescenceDamage depth profiles
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<title>Annealing of radiation defects in x-irradiated LiBaF<formula><inf><roman>3</roman></inf></formula>&l…

2003

Results of the glow rate technique application for analysis of the activation energy of thermostimulated annealing of X-ray created F-type color centers in pure and containing oxygen centers LiBaF3 crystals are presented. It is shown that depending on the impurity composition two alternative mechanisms could be involved in the annealing of color centers. It is proposed that either the anion vacancy governed migration of F-centers resulting in recombination with complementary defects, or the thermal delocalization of radiation created fluorine (Fi) interstitials captured by anti-structure defects followed by recombination with all kinds of complementary F-type centers are responsible for the…

ImpurityAnnealing (metallurgy)ChemistryVacancy defectActivation energyIrradiationAtomic physicsRadiationRecombinationIonSPIE Proceedings
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Influence of irradiation on the switching behavior in PZT thin films

2005

Spatially nonuniform imprint behavior induced by X-ray synchrotron, electron and neutron irradiation has been investigated in sol–gel Pb(Zr,Ti)O3 thin films. The analysis of the switching current data reveals the strong influence of irradiation on the switching current shape. The obtained effects have been explained as a result of acceleration of the bulk screening process induced by irradiation. It was shown that the spatial distribution of the internal bias field is determined by the domain structure existing during irradiation. The changes in the structural characteristics during fatigue cycling have been reveled by high resolution synchrotron X-ray diffraction experiments on (1 1 1)-ori…

In situDiffractionMaterials scienceMechanical EngineeringElectronCondensed Matter PhysicsSynchrotronlaw.inventionCapacitorCrystallographyMechanics of MaterialslawGeneral Materials ScienceIrradiationThin filmComposite materialNeutron irradiationMaterials Science and Engineering: B
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Using ultrasound transmission velocity to analyse the mechanical properties of teeth after in vitro, in situ, and in vivo irradiation.

2000

Ultrasound transmission velocity (UTV) in isotropic material as a measure for the modulus of elasticity was correlated to mechanical properties. Changes in micromechanical properties of radiated teeth and influence of the oral cavity were to be evaluated nondestructively. UTV was measured in extracted teeth after 36 Gy and 62 Gy of in situ (enorally, with no contact to the oral cavity) and in vitro irradiation. Relative to controls, teeth subjected to 62 Gy in vivo showed higher UTV values for dentine and enamel. Sound teeth irradiated with 60 Gy in situ also showed higher UTV values for enamel, whereas dentine values were not significantly different from those of control. The mechanical pr…

In situMaleMaterials scienceDentistryYoung's modulusDental CariesOral cavityStatistics Nonparametricsymbols.namesakestomatognathic systemIn vivoHumansIrradiationDental EnamelRadiation InjuriesGeneral DentistryUltrasonographyTooth CrownEnamel paintbusiness.industryUltrasoundReproducibility of ResultsDose-Response Relationship RadiationMiddle AgedMolarIn vitroElasticitystomatognathic diseasesHead and Neck Neoplasmsvisual_artDentinvisual_art.visual_art_mediumsymbolsFemaleCranial IrradiationbusinessToothBiomedical engineeringClinical oral investigations
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Diffusion and Reactions of Hydrogen inF2-Laser-IrradiatedSiO2Glass

2002

The diffusion and reactions of hydrogenous species generated by single-pulsed F2 laser photolysis of SiO-H bond in SiO2 glass were studied in situ between 10 and 330 K. Experimental evidence indicates that atomic hydrogen (H0) becomes mobile even at temperatures as low as approximately 30 K. A sizable number of H0 dimerize by a diffusion-limited reaction into molecular hydrogen (H2) that may migrate above approximately 200 K. Activation energies for the diffusion, inherently scattered due to the structural disorder in glass, are separated into three bands centered at approximately 0.1 eV for free H0, approximately 0.2 eV presumably for shallow-trapped H0, and approximately 0.4 eV for H2.

In situMaterials scienceHydrogenDiffusionHydrogen moleculeGeneral Physics and Astronomychemistry.chemical_elementPhotochemistryLaserlaw.inventionLaser photolysischemistrylawIrradiationAtomic physicsPhysical Review Letters
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