Thermoelectric Materials
Thermoelectric Materials
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Thermoelectric materials are solid state materials that have the ability to convert heat into electricity and vice versa. They are made up of an array of semiconductors, usually composed of bismuth and telluride, that are layered together to create a thermoelectric effect. These materials can be used in a variety of applications, ranging from cooling and heating devices to energy harvesting and even solar power generation.
... Thermoelectric materials ...
... small-molecules, macrocycles, and polymers for use in organic electronics, photocatalysis, and thermoelectric materials. Troy will augment the company’s existing strengths in synthesizing, testing and optimizing new optoelectronic materials, working alongside CPT’s scientists and ...
... Thermoelectric power generation requires high efficiency thermoelectric materials, a reliable technology for integration of these into thermoelectric modules, and a system that interface with the heat source. Tegma provides turn-key thermoelectric systems where all these aspects are ...
... Thermoelectric materials are a class of advanced materials producing electricity directly from heat. TEGMA develops systems for thermoelectric applications. ...
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... materials for wearable energy harvesting Floating hydrokinetic power converter Glacial sedimentology associated subglacial hydrology Green and sustainable Internet of Things How do antimicrobial peptides alter T cell cytokine production? ...
... New low-cost and environmentally friendly thermoelectric materials can open the applications in energy harvesting. ...
... The thermoelectric figure of merit ZT depends on the temperature range and on the materials itself. Research in thermoelectric materials suggests that significant improvements in efficiency are possible by the “Phonon-Glass, Electron-Crystal” concept which must be always accompanied ...
... A number of processes have emerged that can cost-effectively produce DTP materials with spatially distributed thermoelectric properties — including spark plasma sintering, ion implantation and additive manufacturing. At the same time, DTP technology lends itself to the use of ...
... This effect exists in most of the usual materials but it is more pronounced in some materials called thermoelectric materials. These materials are generally highly doped semiconductor alloys. For example, alloys based on bismuth tellurium are used today in most of the thermoelectric ...
... Thermoelectric materials and microelectronics are a broad research field in modern industries. Downscaling of computer chips, electronic boards and processors has reached nm ranges meanwhile and the heat management gets more and more important. As heat and magnetic fields have an influence ...
