Search results for "Optical"

showing 10 items of 7671 documents

Pressure-induced phase transitions in AgClO4

2011

11 pags, 9 figs, 4 tabs. -- PACS number(s): 62.50.−p, 64.70.K−, 61 .50.Ks, 64.30.−t

Chemical Physics (physics.chem-ph)Condensed Matter - Materials SciencePhase transitionMaterials scienceCondensed matter physicsEquation of state (cosmology)Materials--Propietats mecàniquesMaterials Science (cond-mat.mtrl-sci)FOS: Physical sciencesOrder (ring theory)Condensed Matter PhysicsX-ray diffractionElectronic Optical and Magnetic MaterialsAgClO4Condensed Matter::Materials ScienceTetragonal crystal systemPhysics - Chemical PhysicsX-ray crystallographyPressureCondensed Matter::Strongly Correlated ElectronsOrthorhombic crystal systemDensity functional theoryMaterials--Mechanical propertiesMonoclinic crystal system
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A new monomeric interpretation of intrinsic optical bistability observed in Yb3+-doped bromide materials

2003

We present a mechanism able to show intrinsic bistable behaviour involving single Yb3+ ions embedded into bromide lattices, in which intrinsic optical bistability (IOB) has been observed. The mechanism is based on the experimentally found coupling between the Yb3+ ion and the totally symmetric local mode of vibration of the [YbBr6]3- coordination unit. The model reproduces the IOB observed in CsCdBr3:1% Yb3+ and allows to understand the experimentally found presence of the phenomenon in the other bromides, but its absence in Cs3Lu2Cl9:Yb3+.

Chemical Physics (physics.chem-ph)Quantum PhysicsBistabilityoptical bistability rare earth ionsStereochemistryDopingFOS: Physical sciencesPhysics::OpticsGeneral Physics and AstronomyNonlinear opticsOptical bistabilityIonCoupling (electronics)chemistry.chemical_compoundoptical bistabilitychemistryBromideChemical physicsPhysics - Chemical PhysicsMolecular vibrationrare earth ionsPhysical and Theoretical ChemistryQuantum Physics (quant-ph)Chemical Physics Letters
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Chromogenic and fluorogenic reagents for chemical warfare nerve agents' detection

2008

The ease of production, the extreme toxicity of organophosphorus-containing nerve agents, and their facile use in terrorism attacks underscores the need to develop accurate systems to detect these chemicals. Among different technologies we review here recent advances in the design of chromo-fluorogenic methods for the specific detection of nerve agents. Optical sensing (especially colorimetric detection) requires usually low-cost and widely used instrumentation and offers the possibility of so-called “naked eye detection”. Recent reported examples suggest that the application of chromo-fluorogenic supramolecular concepts for the chromogenic or fluorogenic sensing of nerve agents might be an…

Chemical WarfareSpecific detectionComputer scienceUNESCO::QUÍMICAOptical sensingNanotechnologyFluorogenic:QUÍMICA [UNESCO]CatalysisChromogenicOptical sensingMaterials ChemistrymedicineInstrumentation (computer programming)Nerve agentNerve agentsChromogenicUNESCO::QUÍMICA::Química analíticaToxixityMetals and AlloysGeneral ChemistrySurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsChromogenic ; Fluorogenic ; Chemical Warfare ; Nerve agents ; Toxixity ; Optical sensing:QUÍMICA::Química analítica [UNESCO]Ceramics and Compositesmedicine.drug
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Nondestructive full-field imaging XANES-PEEM analysis of cosmic grains

2006

For chemical analysis of submicron particles, mass spectrometric methods have the disadvantage of being destructive. Thus, a nondestructive elemental and chemical mapping with a high spatial resolution prior to mass analysis is extremely valuable to precharacterize the sample. Here, first results are presented of combined XANES (x-ray absorption near-edge structure) and PEEM (photoemission electron microscopy) measurements on a cosmic grain fraction from the Murchison meteorite. This nondestructive full-field imaging method is well suited for a quantitative analysis and for a preselection prior to detailed mass spectrometric investigations with isotopic resolution/selectivity. A spectral un…

Chemical imagingMurchison meteoritePhotoemission electron microscopyNuclear magnetic resonanceMaterials scienceComposite numberResolution (electron density)Analytical chemistryAbsorption (logic)Condensed Matter PhysicsImage resolutionXANESElectronic Optical and Magnetic MaterialsPhysical Review B
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Excitonic Molecules in AgBr1–xClx Crystals

1994

Chemical physicsChemistryExcitonInorganic chemistryMoleculeCondensed Matter PhysicsLuminescenceChemical compositionElectronic Optical and Magnetic Materialsphysica status solidi (b)
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Low temperature plasma treatment of monomolecular Langmuir-Blodgett films

1993

Abstract The structure of the surface layer of materials is usually quite different from the bulk. Detailed information about the surface structure is often not available. This, together with the complex nature of low temperature plasma treatment, hinders the investigations of plasma chemical processes on solid surfaces. Monomolecular Langmuir-Blodgett (LB) structures offer a unique opportunity to prepare model surfaces with known thickness and molecular architecture. From the data obtained, the depth of the Ar plasma influence on solid organic surfaces was estimated to be about 400–1000 A depending on the nature of the surface layer. An oxygen plasma penetrates deeper with a penetration li…

Chemical processChemistryMetals and AlloysAnalytical chemistrySurfaces and InterfacesPlasmaPenetration (firestop)Langmuir–Blodgett filmSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsMetalChemical engineeringvisual_artMonolayerMaterials Chemistryvisual_art.visual_art_mediumSurface layerThermostabilityThin Solid Films
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Fluorination of Cu(001) Surface by C60F48 Molecule Adsorption

2019

Copper surface functionalization by defluorination of C60F48 molecules with submonolayer and monolayer coverages on the Cu(001) crystal is studied by X-ray photoelectron spectroscopy. At room tempe...

Chemical substanceMaterials sciencechemistry.chemical_elementPhotochemistryCopperSurfaces Coatings and FilmsElectronic Optical and Magnetic Materialslaw.inventionCrystalGeneral EnergyMagazineX-ray photoelectron spectroscopychemistrylawMonolayerSurface modificationMoleculePhysical and Theoretical ChemistryThe Journal of Physical Chemistry C
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Mesoporous Silica Nanoparticles in Chemical Detection: From Small Species to Large Bio-Molecules

2021

A recompilation of applications of mesoporous silica nanoparticles in sensing from the last five years is presented. Its high potential, especially as hybrid materials combined with organic or bio-molecules, is shown. Adding to the multiplying effect of loading high amounts of the transducer into the pores, the selectivity attained by the interaction of the analyte with the layer decorating the material is described. Examples of the different methodologies are presented.

Chemical technologyTP1-1185Reviewsilica nanoparticlesSilicon DioxideBiochemistryAtomic and Molecular Physics and OpticsAnalytical Chemistryoptical chemosensorsNanoparticlesElectrical and Electronic EngineeringPorosityInstrumentationmolecular gatesmesoporous hybrid materialsSensors
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Discrimination of nerve gases mimics and other organophosphorous derivatives in gas phase using a colorimetric probe array.

2012

A colorimetric array for the chromogenic discrimination of organophosphorous derivatives in gas phase has been developed. The array allows us to classify the nerve agent simulants DFP, DCP and DCNP.

Chemical warfare agentsNerve gasesSensitivity and SpecificityCatalysisGas phaseQUIMICA ORGANICAOrganophosphorus CompoundsMaterials ChemistryChemical Warfare AgentsChromogenic detectionPROYECTOS DE INGENIERIAChromatographyChemistryChromogenicSensorsQUIMICA INORGANICAMetals and AlloysGeneral ChemistrySurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsProbe arrayRecognitionMultivariate AnalysisCeramics and CompositesColorimetryGasesDCNPChemical communications (Cambridge, England)
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Magnetochemistry: From Fundamentals to Applications

2016

It is well knowm that Magnetochemistry is a multidisplinary area that deals with many different materials and properties. [...]

Chemistry (miscellaneous)ChemistryMagnetochemistryMaterials ChemistryNanotechnology02 engineering and technology010402 general chemistry021001 nanoscience & nanotechnology0210 nano-technology01 natural sciences0104 chemical sciencesElectronic Optical and Magnetic MaterialsMagnetochemistry
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