Summary
The project's overall concept is centred on the scaling up of novel, mass-production nano-manufacturing techniques invented by FAST-SMART partners for synthesis of nano-structured smart materials and component manufacturing for energy harvesting applications to significantly improve the material quality and structural reliability (>50%~100% improvement) and reduce overall materials and processing costs (by 30%) through shortening the process chains and improving material processing efficiency, being focused on less and free rare-element dependence materials (such as lead-free piezoelectric and Hf-free half-Heusler thermoelectric materials) as well as on new energy harvester designs considering environmental strategy, thus to bring about positive, environment-related impacts to Europe (greenhouse gas emission down by 50%, waste reduction by 50%), increased EU’s market share worthy hundreds million Euros initially, and to promote wide implementation of Internet of Things (IoT) and Digital Single Market (DSM) in Europe, due to introduction of the new energy harvesting products, design and manufacturing services created through the FAST-SMART’s partnership.
Current obstacles to the large-scale introduction of energy harvesters that use materials with less rare-element dependence and/or that are toxicity-free are associated largely with inadequate material performance and reliability, high manufacturing cost, and inadequately developed product design strategy addressing needs for sustainable developments. The main driver of the proposal lies in a need to meet challenges particularly for the development and applications of Piezoelectric (PE) and Thermoelectric (TE) materials, associated structures and systems for new-generation energy harvesters, and for dealing with energy generation, storage and uses related issues with a systematic approach, and hence, to help to meet EU’s targets on the social, economic and environmental developments.
Current obstacles to the large-scale introduction of energy harvesters that use materials with less rare-element dependence and/or that are toxicity-free are associated largely with inadequate material performance and reliability, high manufacturing cost, and inadequately developed product design strategy addressing needs for sustainable developments. The main driver of the proposal lies in a need to meet challenges particularly for the development and applications of Piezoelectric (PE) and Thermoelectric (TE) materials, associated structures and systems for new-generation energy harvesters, and for dealing with energy generation, storage and uses related issues with a systematic approach, and hence, to help to meet EU’s targets on the social, economic and environmental developments.
Unfold all
/
Fold all
More information & hyperlinks
| Web resources: | https://cordis.europa.eu/project/id/862289 |
| Start date: | 01-04-2020 |
| End date: | 30-09-2024 |
| Total budget - Public funding: | 6 945 201,00 Euro - 6 945 201,00 Euro |
Cordis data
Original description
The project's overall concept is centred on the scaling up of novel, mass-production nano-manufacturing techniques invented by FAST-SMART partners for synthesis of nano-structured smart materials and component manufacturing for energy harvesting applications to significantly improve the material quality and structural reliability (>50%~100% improvement) and reduce overall materials and processing costs (by 30%) through shortening the process chains and improving material processing efficiency, being focused on less and free rare-element dependence materials (such as lead-free piezoelectric and Hf-free half-Heusler thermoelectric materials) as well as on new energy harvester designs considering environmental strategy, thus to bring about positive, environment-related impacts to Europe (greenhouse gas emission down by 50%, waste reduction by 50%), increased EU’s market share worthy hundreds million Euros initially, and to promote wide implementation of Internet of Things (IoT) and Digital Single Market (DSM) in Europe, due to introduction of the new energy harvesting products, design and manufacturing services created through the FAST-SMART’s partnership.Current obstacles to the large-scale introduction of energy harvesters that use materials with less rare-element dependence and/or that are toxicity-free are associated largely with inadequate material performance and reliability, high manufacturing cost, and inadequately developed product design strategy addressing needs for sustainable developments. The main driver of the proposal lies in a need to meet challenges particularly for the development and applications of Piezoelectric (PE) and Thermoelectric (TE) materials, associated structures and systems for new-generation energy harvesters, and for dealing with energy generation, storage and uses related issues with a systematic approach, and hence, to help to meet EU’s targets on the social, economic and environmental developments.
Status
SIGNEDCall topic
LC-NMBP-32-2019Update Date
27-10-2022
Images
No images available.
Geographical location(s)
Structured mapping
Unfold all
/
Fold all
H2020-EU.2.1.2. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies – Nanotechnologies
Search
Organisations
-
| UNIVERSITY OF STRATHCLYDE (Coördinator)
-
| AVNIR ENGINEERING
-
| BPE INTERNATIONAL DR HORNIG GMBH
-
| Cedrat Technologies SA
-
| DURANTE SPACE TECH SL
-
| Fachhochschule Köln
-
| GAE ENGINEERING SRL
-
| INNOVATION IN RESEARCH & ENGINEERING SOLUTIONS
-
| Institutul National de Cercetare - Dezvoltare Pentru metale Neferoase si Rare - IMNR
-
| MATRES SRL
-
| MBN NANOMATERIALIA SPA
-
| National Technical University of Athens
-
| PASCOE ENGINEERING LIMITED
-
| THE UNIVERSITY OF BIRMINGHAM
-
| UNIVERSITE SAVOIE MONT BLANC