RESUMEN
We present here the use of a simultaneous TGA/DSC thermal analyzer as a high-throughput reactor system to measure after calibration the heat of reaction and therefore the catalytic activity of heterogeneous catalysts in a fast, reliable and reproducible manner. By coupling the gas outlet of the analyzer with a mass spectrometer via a heated capillary additional data can be acquired. As a test reaction the oxidation of carbon monoxide with synthetic air, using Hopcalite and several transition and noble metals as catalysts, was chosen. The setup presented allows the rapid sequential screening of about 70 catalysts per day.
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Rastreo Diferencial de Calorimetría/métodos , Termogravimetría/métodos , Catálisis , Espectrometría de MasasRESUMEN
The so-called "emissivity corrected infrared thermography" (ecIRT) has been successfully developed and used to great effect in the field of combinatorial high-throughput studies in catalysis. A short introduction to the basics of ecIRT and the description of a typical setup is given. Research efforts from 1998 until present are summarized and selected publications with IRT applications in catalysis are highlighted. The last section of the article covers potential problems, which the observant may misinterpret as activity of the materials. The effects are classified and it is explained why they occur and what can be done to bypass them.
Asunto(s)
Ensayos Analíticos de Alto Rendimiento , Rayos Infrarrojos , Termografía , CatálisisRESUMEN
We review the state of the art and explain the need for better SO2 oxidation catalysts for the production of sulfuric acid. A high-throughput technology has been developed for the study of potential catalysts in the oxidation of SO2 to SO3. High-throughput methods are reviewed and the problems encountered with their adaptation to the corrosive conditions of SO2 oxidation are described. We show that while emissivity-corrected infrared thermography (ecIRT) can be used for primary screening, it is prone to errors because of the large variations in the emissivity of the catalyst surface. UV-visible (UV-Vis) spectrometry was selected instead as a reliable analysis method of monitoring the SO2 conversion. Installing plain sugar absorbents at reactor outlets proved valuable for the detection and quantitative removal of SO3 from the product gas before the UV-Vis analysis. We also overview some elements used for prescreening and those remaining after the screening of the first catalyst generations.