Borchardt R, Fromm T, Haase A, Fecher J, Rosiwal S (2020)
Publication Type: Journal article
Publication year: 2020
Carbon and carbon-based compounds are today's mostly used sources of energy. By burning them, their chemically stored energy can be transformed to mechanical energy and further on to electrical energy. These transformation steps entail huge thermal losses. Thermoelectric generators (TEGs) are devices that allow the direct conversion of thermal gradients into electrical energy through a smart combination of n- and p-conducting materials and are therefore an appealing approach to tackle thermal losses. However, the materials in today's TEGs, e.g., Bi2Te3, show limited thermal stability and often are toxic or not abundantly available which only allow for niche applications like military and aerospace equipment. Herein, the fabrication of the first, fully functional all-carbon TEG is shown. The used carbon materials, made by chemical vapor deposition (CVD) processes, are both, nontoxic and abundant, and potentially paves the way for the large-scale use of TEGs. Not only the thermal losses of conventional combustion processes but also thermal gradients established by solar thermal systems are potential fields of application. The assay is anticipated to spark further interest in carbon-based thermoelectric materials. Such materials can be produced on a large scale and combined to a fully functional thermoelectric device.
APA:
Borchardt, R., Fromm, T., Haase, A., Fecher, J., & Rosiwal, S. (2020). World's First Thermoelectric Generator Made of Tailored Carbon Allotropes. Advanced Engineering Materials. https://dx.doi.org/10.1002/adem.202000108
MLA:
Borchardt, Rudolf, et al. "World's First Thermoelectric Generator Made of Tailored Carbon Allotropes." Advanced Engineering Materials (2020).
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