The impacts of energy and financial crisis along with climate change have generated the necessity of cheap sustainable green energy. Upgrading the otherwise lost waste heat, estimated to be over 60% of the globally released energy, to electrical energy is a promising strategy for sustainable energy. The use of thermoelectric,TE, devices which convert directly the waste heat to electrical energy, is a desirable technology for future power generation as there are no moving parts, high reliability, high adaptability uses, minimal environmental pollution and noiseless operation. Despite the big effort of the last years their conversion efficiency is quite low and the thermoelectric materials that are currently used are based on Tellurium, which is very rare on the earth surface.
The objectives of NOSTA Project are summarized as follows
1. Optimization of the synthesis and processing of highly-efficient, low-cost, non-toxic and environmentally friendly nanostructured bulk thermoelectric materials (TE) with the aim of further enhancing their efficiency.
2. Understanding of the underlying Physical mechanisms through computational modelling and analysis/modelling of the experimental data.
3. Construction and characterization of a prototype Thermoelectric device using the fabricated materials.
4. Improvement of existing experimental characterization technique to investigate thermoelectric properties in the nanoscale.