Search results for "Nerve agent"

showing 10 items of 19 documents

Determination of the chemical warfare agents Sarin, Soman and Tabun in natural waters employing fluorescent hybrid silica materials

2017

[EN] A novel mesoporous silica material containing boron-dipyrromethene (BODIPY) moieties (I) is employed for the detection of nerve agent simulants (NASs) and the organophosphate nerve or chemical warfare agents (CWAs) Sarin (GB), Soman (GD), and Tabun (GA) in aqueous environments. The reactive BODIPY dye with an optimum positioned hydroxyl group undergoes acylation reactions with phosph(on)ate substrates, yielding a bicyclic ring. Due to aggregation of the dyes in water, the sensitivity of the free dye in solution is very low. Only after immobilization of the BODIPY moieties into the silica substrates is aggregation inhibited and a sensitive determination of the NASs diethyl cyanophosphon…

010402 general chemistry01 natural sciencesFluorescence detectionchemistry.chemical_compoundQUIMICA ANALITICAMaterials ChemistrymedicineOrganic chemistryReactivity (chemistry)Electrical and Electronic EngineeringInstrumentationNerve agentTabunAqueous solutionQuenching (fluorescence)010405 organic chemistryChemistryQUIMICA INORGANICAMetals and AlloysMesoporous silicaCondensed Matter Physics0104 chemical sciencesSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsDiethyl chlorophosphateNerve agent simulantsMesoporous silica materialsBODIPYmedicine.drugNuclear chemistry
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Highly Selective Detection of Nerve‐Agent Simulants with BODIPY Dyes

2014

Two chromo-fluorogenic probes, each based on the boron dipyrromethene core, have been developed for the detection of nerve-agent mimics. These chemosensors display both a color change and a significant enhancement of fluorescence in the presence of diethylcyanophosphonate (DCNP) and diisopropylfluorophosphate (DFP). No interference from other organophosphorus compounds or acids has been observed. Two portable chemosensor kits have been developed and tested to demonstrate its practical application in real-time monitoring.

Analytical chemistrysensorsCatalysischemistry.chemical_compoundQUIMICA ORGANICAfluorescent probesmedicinePhosphorylationColoring AgentsBoronFluorescent DyesNerve agentNeurological agentsMolecular StructurephosphorylationChemistryQUIMICA INORGANICAOrganic ChemistryGeneral ChemistryHighly selectiveCombinatorial chemistryFluorescenceBODIPYboronmedicine.drugChemistry – A European Journal
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Chromo-fluorogenic BODIPY-complexes for selective detection of V-type nerve agent surrogates

2014

Two new Eu3+ and Au3+ BODIPY-complexes capable of chromofluorogenically detecting micromolar concentrations of V-type nerve agent surrogates by a simple displacement assay are described

Boron CompoundsSURFACECHEMICAL WARFARE AGENTSCatalysischemistry.chemical_compoundQUIMICA ORGANICAEuropiumMIMICSOrganometallic CompoundsMaterials ChemistrymedicineSENSORSNerve agentMolecular StructureQUIMICA INORGANICAMetals and AlloysOrganothiophosphorus CompoundsGeneral ChemistryCombinatorial chemistrySurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialschemistryCeramics and CompositesGoldBODIPYGOLD(III) COMPLEXESDYESmedicine.drug
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Selective chromo-fluorogenic detection of DFP (a Sarin and Soman mimic) and DCNP (a Tabun mimic) with a unique probe based on a boron dipyrromethene …

2014

[EN] A novel colorimetric probe (P4) for the selective differential detection of DFP (a Sarin and Soman mimic) and DCNP (a Tabun mimic) was prepared. Probe P4 contains three reactive sites; i.e. (i) a nucleophilic phenol group able to undergo phosphorylation with nerve gases, (ii) a carbonyl group as a reactive site for cyanide; and (iii) a triisopropylsilyl (TIPS) protecting group that is known to react with fluoride. The reaction of P4 with DCNP in acetonitrile resulted in both the phosphorylation of the phenoxy group and the release of cyanide, which was able to react with the carbonyl group of P4 to produce a colour modulation from pink to orange. In contrast, phosphorylation of P4 with…

Boron CompoundsSarinORGANOPHOSPHATE PESTICIDESAcetonitrilesCyanideSomanColorSilica GelNERVE AGENTSCHEMICAL WARFARE AGENTSBiochemistryACETYLCHOLINESTERASESubstrate Specificitychemistry.chemical_compoundQUIMICA ORGANICALimit of DetectionSomanmedicineSENSORSNANOPARTICLESPhenolOrganic chemistryHumansChemical Warfare AgentsPhysical and Theoretical ChemistryPhosphorylationProtecting groupTabunNerve agentLANTHANIDE IONSReagent StripsRHODAMINE-BOrganic ChemistryQUIMICA INORGANICAMolecular MimicryMembranes ArtificialSarinOrganophosphatesFLUORESCENTchemistryMolecular ProbesSolventsColorimetryBODIPYFIELD-EFFECT TRANSISTORSNuclear chemistrymedicine.drugOrganicbiomolecular chemistry
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A Rapid and Sensitive Strip-Based Quick Test for Nerve Agents Tabun, Sarin, and Soman Using BODIPY-Modified Silica Materials

2016

Test strips that in combination with a portable fluorescence reader or digital camera can rapidly and selectively detect chemical warfare agents (CWAs) such as Tabun (GA), Sarin (GB), and Soman (GD) and their simulants in the gas phase have been developed. The strips contain spots of a hybrid indicator material consisting of a fluorescent BODIPY indicator covalently anchored into the channels of mesoporous SBA silica microparticles. The fluorescence quenching response allows the sensitive detection of CWAs in the mu g m(-3) range in a few seconds.

Boron CompoundsSarinSilicon dioxideSomanAnalytical chemistrynerve gases010402 general chemistry01 natural sciencesCatalysischemistry.chemical_compoundSomanQUIMICA ANALITICAmedicineChemical Warfare AgentsTabunNerve agenthybrid sensor materialsChromatography010405 organic chemistryOrganic ChemistryQUIMICA INORGANICAGeneral ChemistrySilicon DioxideFluorescenceSarinOrganophosphates0104 chemical scienceschemistrychemical warfare agentstest strip analysisProthrombin TimefluorescenceBODIPYMesoporous materialNerve Agentsmedicine.drug
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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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Aryl carbinols as nerve agent probes. Influence of the conjugation on the sensing properties

2012

Two new aryl carbinols (1 and 3) have been synthesised and characterised and their ability as OFF-ON probes for the chromogenic detection of the nerve agent simulant in acetonitrile has been tested. In addition compound 2 has been also studied. The carbinols suffered a phosphorylation reaction followed by an elimination process giving rise to the corresponding carbocations. This transformation of the carbinol into the carbocation is responsible for a significant color change. © The Royal Society of Chemistry and the Centre National de la Recherche Scientifique 2012.

ChemistryChromogenicChemical warfare agentArylQUIMICA INORGANICAGeneral ChemistryCarbocationPhotochemistryCombinatorial chemistryChemical reactionCatalysisElimination reactionchemistry.chemical_compoundQUIMICA ORGANICAMethanol derivativeMaterials ChemistrymedicineElimination reactionAcetonitrilePhosphorylationAcetonitrileChemical reactionMolecular probeNerve agentmedicine.drug
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Functionalized Gold Nanoparticles as an Approach to the Direct Colorimetric Detection of DCNP Nerve Agent Simulant

2013

New functionalized gold nanoparticles have been synthesized and their ability to act as colorimetric molecular probes for the naked-eye detection of nerve agent simulant DCNP has been studied. The detection process is based on the com

ChemistryColloidal goldOrganic ChemistrymedicineNanoparticleNanotechnologyPhysical and Theoretical ChemistryColorimetryCombinatorial chemistryNerve agentmedicine.drugEuropean Journal of Organic Chemistry
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Towards the design of organocatalysts for nerve agents remediation: The case of the active hydrolysis of DCNP (a Tabun mimic) catalyzed by simple ami…

2015

We report herein a study of the hydrolysis of Tabun mimic DCNP in the presence of different amines, aminoalcohols and glycols as potential suitable organocatalysts for DCNP degradation. Experiments were performed in CD3CN in the presence of 5% D2O, which is a suitable solvent mixture to follow the DCNP hydrolysis. These studies allowed the definition of different DCNP depletion paths, resulting in the formation of diethylphosphoric acid, tetraethylpyrophosphate and phosphoramide species as final products. Without organocatalysts, DCNP hydrolysis occurred mainly via an autocatalysis path. Addition of tertiary amines in sub-stoichiometric amounts largely enhanced DCNP depletion whereas non-te…

Environmental EngineeringHealth Toxicology and MutagenesisOrganocatalystsCatalysisCatalysisNitrophenolsAutocatalysisGlycolschemistry.chemical_compoundHydrolysisQUIMICA ORGANICAEnvironmental ChemistryMoietyOrganic chemistryChemical Warfare AgentsAminesWaste Management and DisposalEnvironmental Restoration and RemediationTabunEthanolHydrolysisQUIMICA INORGANICAAmino AlcoholsPollutionOrganophosphatesSolventKineticsDiethylcyanophosphonatechemistryNerve agent simulantAmine gas treatingNerve AgentsJournal of Hazardous Materials
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BODIPY dyes functionalized with 2-(2-dimethylaminophenyl)ethanol moieties as selective OFF–ON fluorescent chemodosimeters for the nerve agent mimics …

2014

[EN] Two OFF-ON fluorescent chemodosimeters based on a BODIPY core for the detection of nerve agent mimics have been synthesized. Their reactivity towards diethylcyanophosphonate (DCNP) and diisopropylfluorophosphate (DFP) has been tested in organic and aqueous phase. These chemodosimeters selectively detect the nerve agent mimics with good LODs. The chemodosimeters hold their sensing properties on solid supports, allowing the preparation of a hand held sensing kit. The sensing in solid-liquid phase has been demonstrated. The X-ray structure of compound 2 has been resolved.

General Chemical EngineeringBiological Warfare Agentschemistry.chemical_compoundOrganophosphorus HydrolasemedicineOrganic chemistryReactivity (chemistry)Nerve agentEthanolDmmp DetectionQUIMICA INORGANICAOptical-PropertiesAqueous two-phase systemGeneral ChemistryCombinatorial chemistryFluorescenceElectrochemical gas sensorchemistryAcetylcholinesteraseSpectroscopic PropertiesBODIPYPhotonic CrystalBiosensorElectrochemical SensorDerivativesBiosensormedicine.drugRSC Adv.
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