Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy

Cost effective thermoelectric composites from recycled carbon fibre: From waste to energy

Bismuth compounds; Coated materials; Cost effectiveness; Energy harvesting; Fillers; Recycling; Sulfur compounds; Thermodynamic stability; Thermoelectricity; Waste heat; Bismuth telluride; Energy; Filler concentration; Low-grade waste heat; Recycled carbon fibres; Thermo-Electric materials; Thermoel...

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Bibliographic Details
Main Authors: Jagadish P.R., Khalid M., Li L.P., Hajibeigy M.T., Amin N., Walvekar R., Chan A.
Other Authors: 56941728800
Format: Article
Published: Elsevier Ltd 2023
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Institution: Universiti Tenaga Nasional
Description
Summary:Bismuth compounds; Coated materials; Cost effectiveness; Energy harvesting; Fillers; Recycling; Sulfur compounds; Thermodynamic stability; Thermoelectricity; Waste heat; Bismuth telluride; Energy; Filler concentration; Low-grade waste heat; Recycled carbon fibres; Thermo-Electric materials; Thermoelectric composite; Waste to energy; Carbon fibers

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