Masterclass Certificate in Thermoelectric Materials: Sustainable Synthesis
-- ViewingNowThe Masterclass Certificate in Thermoelectric Materials: Sustainable Synthesis is a comprehensive course designed to equip learners with the essential skills needed to excel in the field of thermoelectric materials and sustainable synthesis. This course emphasizes the importance of sustainable and eco-friendly methods in materials synthesis, aligning with the growing industry demand for environmentally conscious practices.
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GBP £ 140
GBP £ 202
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⢠Fundamentals of Thermoelectric Materials: Overview of thermoelectric materials and their properties, principles of thermoelectric energy conversion, and applications of thermoelectric materials in sustainable energy systems.
⢠Synthesis Methods of Thermoelectric Materials: Introduction to different synthesis methods, including solid-state synthesis, melt-quenching, and mechanical alloying, and their advantages and disadvantages.
⢠Advanced Synthesis Techniques: Exploration of advanced synthesis techniques, such as spark plasma sintering, hot pressing, and zone melting, to improve the properties of thermoelectric materials.
⢠Materials Characterization Techniques: Examination of various characterization techniques, including X-ray diffraction, scanning electron microscopy, and transport property measurements, to evaluate the structure, composition, and performance of thermoelectric materials.
⢠Doping and Defect Engineering: Investigation of doping and defect engineering strategies to optimize the thermoelectric properties of materials, including n-type and p-type doping and band structure engineering.
⢠Thermal and Electrical Transport Properties: Analysis of thermal and electrical transport properties of thermoelectric materials, including Seebeck coefficient, electrical conductivity, and thermal conductivity, and their interdependence.
⢠Thermoelectric Device Design and Fabrication: Overview of the design and fabrication of thermoelectric devices, including thermoelectric generators, thermoelectric coolers, and thermoelectric power generators.
⢠Industrial Applications and Challenges: Exploration of industrial applications of thermoelectric materials, including waste heat recovery, power generation in space, and refrigeration, and the challenges in scaling up thermoelectric technology.
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