CALORIMETRY AND THERMAL METHODS IN MATERIAL SCIENCE
Calorimetry and thermal analysis methods, alone or linked to other techniques, will be described and applied to the characterization of catalysts, oxides, metals, supports, adsorbents, polymers, composites, food, pharmaceuticals, mesoporous solids, ionic liquids, phase change materials, heat storage materials, hydrogen storage materials. Examples will be given in various domains: catalytic reactions, air and wastewater treatment, clean and renewable energies, refining of hydrocarbons, green chemistry, biomass-based reactions, hydrogen production and storage, carbons and chars, CO2 capture, interseasonal heat storage, PCM, food chemistry, polymers,..
The described techniques will be the following: calorimetry, DSC (differential scanning calorimetry), TGA (thermogravimetric analysis), DTA (differential thermal analysis), TPD (thermoprogrammed desorption), TPR/TPO (thermoprogrammed reduction/oxidation), and coupled techniques as Calorimetry – Volumetry, TG-DSC-MS, TG-FTIR, DSC – Gas Chromatography, Calorimetry – UV / Visible spectroscopy, Calorimetry – HPL Chromatography, Titration and flow calorimetry, modulated DSC,..
Thematic workshops on case studies will be organized according to the scientific interests of the participants (i.e. CO2 capture, hydrogen storage and production, thermochemical heat storage, polymer decomposition, catalytic active sites characterization, experimental set-up and instruments calibrations, experimental data interpretation…). Participants are invited to submit their wishes in the registration form (“Remarks” section).