The TransFlexTeg consortium will target several breakthrough concepts such as: 1) large area high performance transparent thermoelectric thin films deposited on flexible substrates for thermal energy harvesting; 2) low cost high throughput thin film thermal sensors for thermal...
The TransFlexTeg consortium will target several breakthrough concepts such as:
1) large area high performance transparent thermoelectric thin films deposited on flexible substrates for thermal energy harvesting;
2) low cost high throughput thin film thermal sensors for thermal mapping and gesture sensing;
3) flexible smart windows and walls with energy harvesting, environmental sensing and wireless communication functionalities.
The developed technology aims to demonstrate the functionalities of a smart window able to measure air quality and environmental parameters such as temperature, sun radiation and humidity. The data is automatically collected and can be utilized for controlling heating, cooling and ventilation systems of indoors. Active radio interface enables long-range communication and long- term data collection with WiFi or a similar base station. The proposed concept of smart windows replaces several conventional sensors with a distributed sensor network that is integrated invisibly into windows. In addition to the power generated from the thermal energy harvesting, the thermoelectric elements (TE) are also used as temperature sensors that, while being distributed over large area, enable thermal mapping of the area instead of just one or a few values measured from particular points. This smart window can be produced on glass, but the final goal will be the fabrication on transparent flexible organic substrates using Roll to Roll Atomic Layer Deposition (R2R ALD), that can be fixed or retrofitted on existing windows or walls, which will significantly broaden the field of applications and improve business opportunities. High environmental impact is expected with savings of more than 25% of the electrical usage of residential homes and office buildings.
The work has been performed according to time table.
- development of transparent and flexible thin film thermoelectric materials
- development of transparent temperature sensors
- development of rf-id based on oxide materials
- dissemination actions: conferences,
- monthly skype meeting to organize the work for the running tasks
- 3 meetings a year for discussion and planning of the work
So far high performance AZO thermoelectric thin films has been achieved that can be employed for both thermoeletrics, temperature sensors and rfids.
So far the expected impact is high, however the demonstrators are still in a very young stage of development.
More info: http://www.transflexteg.eu.