Nanomaterials characterization
Thermogravimetric analysis (TGA) combined with evolved gas analysis (EGA) provides valuable insights into nanomaterials’ composition and stability. Calorimetry helps determine thermodynamic properties, such as surface energy and reactivity, essential for understanding synthesis and optimizing conditions for applications like catalysis and energy storage.
Nanomaterials: composition and reactivity
If you’re involved in the development or use of nanomaterials, it’s crucial to specify or check their properties and composition. Our solutions are designed to help you meet these challenges. They allow you to optimize manufacturing processes and adapt materials to the specific requirements of various applications.
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Thermal Stability
Are you using nanomaterials at high temperature? You can use TGA or STA to determine the thermal stability of your nanomaterials. It provides the temperature and steps of decomposition or transition, under different atmospheres.
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Composition analysis
Do you need to guarantee or check your material’s composition? Using TGA, you can characterize solids containing nanomaterials. It includes the material’s volatiles, organic, inorganic content, and nanomaterials content. Evolved Gas Analysis (EGA) helps with more detailed information.
Associated products
