Search results for "Explosive Agents"

showing 6 items of 6 documents

Highly selective and sensitive chromo-fluorogenic detection of the Tetryl explosive using functional silica nanoparticles

2011

Silica nanoparticles containing polyamines and thiol groups have been used as probes for the selective detection of Tetryl. © 2011 The Royal Society of Chemistry.

PolyamineINGENIERIA DE LA CONSTRUCCIONUnclassified drugNanoparticlePhotochemistryColorimetry (chemical method)Nitrobenzenechemistry.chemical_compoundNanoparticleQUIMICA ORGANICAChemical structureSilicon dioxidePolyaminesMaterials ChemistryChemical analysischemistry.chemical_classificationAniline CompoundsChemistryMetals and Alloysrespiratory systemTetrylSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsThiolColorimetryDyeExplosive materialSilicon dioxideChemical structureArticleCatalysisThiol groupBinding site246 trinitrophenylmethylnitramineExplosive AgentsExplosiveReaction analysisQUIMICA ANALITICASulfhydryl CompoundsNitrobenzenesSensorFluorescent DyesFluorescent dyeQUIMICA INORGANICAGeneral ChemistrySilane derivativeCombinatorial chemistryChromogenic substrateCeramics and CompositesNanoparticlesChemical Communications
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Development of a micro-analytical prototype for selective trace detection of orthonitrotoluene

2014

Abstract A silicon micro-analytical platform consisting of a micro-preconcentrator based on a hydrophobic zeolite, coupled to a silicon spiral micro-column was built. A chemical gas sensor acted as a miniaturized gas detector. This system allowed selective detection of orthonitrotoluene (ONT), an explosive-related compound at the sub-ppm level (365 ppb) in the presence of toluene and moisture.

Materials scienceSiliconMoisturebusiness.industryAnalytical chemistrychemistry.chemical_elementExplosive AgentsTolueneAnalytical Chemistrychemistry.chemical_compoundchemistryOptoelectronicsGas detectorZeolitebusinessSpectroscopyMicrochemical Journal
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Exposure assessment of a burning ground for chemical ammunition on the Great War battlefields of Verdun

2007

The destruction of arsenical shells from the 1914/18 war in the vicinity of Verdun (France) during the 1920s resulted in a locally limited but severe soil contamination by arsenic and heavy metals. At the study site, the main part of the contaminant inventory occurs in the upper 20 cm of the topsoil which is essentially composed of combustion residues. Besides, some Cu (cmax.=16,877 mg/kg) and Pb (cmax.=26,398 mg/kg) in this layer, As (cmax.=175,907 mg/kg) and Zn (cmax.=133,237 mg/kg) were detected in very high concentrations. The mobilities of Cu, Mn, Pb and Zn in the soil system were derived from ammonium nitrate eluates. They are strongly influenced by the soil pH and can be described by…

TopsoilEnvironmental EngineeringSoil testChemistryEnvironmental engineeringEnvironmental ExposureDispersion (geology)PollutionSoil contaminationFiresArsenicArsenic contamination of groundwaterSoilExplosive AgentsMetals HeavyEnvironmental chemistrySoil pHSoil PollutantsEnvironmental ChemistrySoil horizonFranceWorld War IWaste Management and DisposalSubsoilEnvironmental MonitoringScience of The Total Environment
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Tetrathiafulvalene-Capped Hybrid Materials for the Optical Detection of Explosives

2013

[EN] Mesoporous silica microparticles capped with TTF moieties and containing a ruthenium dye in the pores were used for the turn-on optical detection of the nitroaromatic explosives Tetryl and TNT via a selective pore uncapping and release of the entrapped dye.

INGENIERIA DE LA CONSTRUCCIONMaterials scienceExplosive materialInorganic chemistrychemistry.chemical_elementChemistry Techniques AnalyticalNitroaromatic explosivesMolecular Gateschemistry.chemical_compoundQUIMICA ORGANICANitroaromatic explosivesExplosive AgentsHeterocyclic CompoundsQUIMICA ANALITICAControlled releaseGeneral Materials ScienceChemosensorsQUIMICA INORGANICAMesoporous solidsMesoporous silicaSilicon DioxideTetrylControlled releaseRutheniumchemistryTetrathiafulvaleneHybrid materialPorosityTetrathiafulvaleneTrinitrotolueneACS Applied Materials & Interfaces
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Stability of nitroaromatic specialty explosives in reversed-phase liquid chromatographic systems

2008

Abstract In this study, the stability of 2,4-dinitroanisole, 2,2′,4,4′,6,6′-hexanitrodiphenylsulfide, 2,3,4,6-tetranitroaniline, 2,4,6-trinitroaniline, 2,4,6-trinitroanisole, and 2,4,6-trinitrochlorobenzene in liquid chromatographic systems was studied under different solvent/eluent conditions. Stock solutions of the explosives were prepared in acetonitrile and diluted with acetone/water, acetonitrile/water, or methanol/water mixtures. Within 48 h, these working solutions were repeatedly injected onto a silica column and eluted with acetonitrile/water or methanol/water mobile phases. Under all conditions, 2,4-dinitroanisole was stable, whereas 2,4,6-trinitroaniline was stable only in the me…

Environmental EngineeringChromatographyExplosive materialChemistryElutionHealth Toxicology and MutagenesisReference StandardsPollutionHigh-performance liquid chromatographySolventchemistry.chemical_compoundColumn chromatographyExplosive AgentsAcetoneEnvironmental ChemistryMethanolAcetonitrileWaste Management and DisposalChromatography LiquidJournal of Hazardous Materials
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Optical chemosensors and reagents to detect explosives

2012

[EN] This critical review is focused on examples reported from 1947 to 2010 related to the design of chromo-fluorogenic chemosensors and reagents for explosives (141 references). © 2012 The Royal Society of Chemistry.

INGENIERIA DE LA CONSTRUCCIONMaterials scienceOptical PhenomenaExplosive materialNanotechnologyLight related phenomenaColorimetry (chemical method)Chemistry Techniques AnalyticalNitroaromatic explosivesQUIMICA ORGANICAExplosive AgentsQUIMICA ANALITICAIndicatorsChemical analysisDyesReagentsQUIMICA INORGANICAOptical ProcessesGeneral ChemistryMarkers and buffersExplosive AgentsSpectrometry FluorescenceSpectrofluorometryIndicators and ReagentsColorimetryOptical Processes
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