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Sensing Nitrogen Mustard Gas Simulant at the ppb Scale via Selective Dual-Site Activation at Au/Mn3O4 Interfaces
- submitted author version of the paper:
- by
- Lorenzo Bigiani,
- Dario Zappa,
- Davide Barreca,
- Alberto Gasparotto,
- Cinzia Sada,
- Gloria Tabacchi,
- Ettore Fois
- Elisabetta Comini,
- Chiara Maccato
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- Inorganic materials (incl. nanomaterials)
- Macromolecular materials
- Structure and dynamics of materials
- Other chemical sciences not elsewhere classified
- Computational chemistry
- Nanochemistry
- Supramolecular chemistry
- Physical properties of materials
- Physical chemistry not elsewhere classified
- Sensor technology (incl. chemical aspects)
- Macromolecular and materials chemistry not elsewhere classified
- Theoretical and computational chemistry not elsewhere classified
- Theory and design of materials
- Transition metal chemistry
- Theoretical quantum chemistry
- Inorganic chemistry not elsewhere classified
- Analytical chemistry not elsewhere classified
Keywords
sensorsmanganese oxidenanoparticlesNoble metal nanoparticlesgold nanoparticlesgoldsilverchemical warfare agentmustard gaschemical vapor depositionfunctional materialsmodeling and simulationsdensity functional calculationstransition metal oxideschemiresistive sensorsChemical Characterisation of MaterialsChemical Sciences not elsewhere classifiedComputational ChemistryNanochemistry and Supramolecular ChemistryPhysical Chemistry of MaterialsPhysical Chemistry not elsewhere classifiedSensor Technology (Chemical aspects)Synthesis of MaterialsTheoretical and Computational Chemistry not elsewhere classifiedTheory and Design of MaterialsTransition Metal ChemistryQuantum ChemistryInorganic Chemistry not elsewhere classifiedAnalytical Chemistry not elsewhere classified
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