Cel
In recent years, the effort in thin-film silicon (TFSi) was made at solving industrialization issues. In 2010, several companies demonstrated 10% stable modules (> 1 m²). The major “bricks” for efficient production are now in place. Next challenges are linked to the fact that TFSi multi-junction devices, allowing for higher efficiency, are complex devices, in which the substrate geometry and each layer have an impact on the full device. This explains why the first industrializations focused on “single technology” roads (e.g. Jülich-AMAT or EPFL-Oerlikon approaches).
This project focuses at bringing the next-generation technology to the market, using newly developed state-of-the art knowledge to solve the complex puzzle of achieving at the same time strong light in-coupling (high current) and good electrical properties (open-circuit voltage and fill factor). In a unique collaborative effort of the leading EU industries and research institutions in the field, the consortium will go beyond the current technology status by
• Introducing novel materials, including multi-phase nanomaterials (such as doped nc-SiOx, high crystallinity nc-Si materials), stable top cell materials, nanoimprinted substrates and novel or adapted transparent conductive oxides;
• Designing and implementing ideal device structures, taking into account the full interaction of layers in multi-junction devices;
• Controlling the growth of active layers on textured materials;
• Working at processes that could allow a further extension of the technology such as very high rate nc-Si deposition or multi-step superstrate etching;
• Transferring processes, including static and dynamic plasma deposition, from the laboratory to pilot scale, with first trials in production lines.
The targets of the project is to achieve solar cells with 14% stable efficiency, leading to the demonstration of reliable production size prototypes module at 12% level. Potential cost below 0.5€/Wp should be demonstrated.
Dziedzina nauki
Temat(-y)
- ENERGY.2011.2.1-2 - Development and up-scaling of innovative photovoltaic cell processes and architectures to pilot-line scale for industrial application, Joint call with NMP
- NMP.2011.1.2-1 - Development and up-scaling of innovative photovoltaic cell processes and architectures to pilot-line scale for industrial application, call jointly implemented with ENERGY
Zaproszenie do składania wniosków
FP7-NMP-ENERGY-2011
Zobacz inne projekty w ramach tego zaproszenia
System finansowania
CP-IP - Large-scale integrating projectKoordynator
52428 Julich
Niemcy
Zobacz na mapie
Uczestnicy (24)
Zakończenie uczestnictwa
3911 RW RHENEN
Zobacz na mapie
1015 Lausanne
Zobacz na mapie
1755 LE Petten
Zobacz na mapie
182 21 Praha 8
Zobacz na mapie
1000 Ljubljana
Zobacz na mapie
2628 CN Delft
Zobacz na mapie
01069 Dresden
Zobacz na mapie
00196 Roma
Zobacz na mapie
Zakończenie uczestnictwa
3584 CS Utrecht
Zobacz na mapie
75794 Paris
Zobacz na mapie
Zakończenie uczestnictwa
9477 Truebbach
Zobacz na mapie
Zakończenie uczestnictwa
33609 BIELEFELD
Zobacz na mapie
Zakończenie uczestnictwa
39340 HALDENSLEBEN
Zobacz na mapie
01217 DRESDEN
Zobacz na mapie
6411TE HEERLEN
Zobacz na mapie
M5 4WT SALFORD-MANCHESTER
Zobacz na mapie
82256 FURSTENFELDBRUCK
Zobacz na mapie
2628 XJ Delft
Zobacz na mapie
Zakończenie uczestnictwa
5656 AE Eindhoven
Zobacz na mapie
6827 AV ARNHEM
Zobacz na mapie
Zakończenie uczestnictwa
12681 BERLIN
Zobacz na mapie
95121 CATANIA
Zobacz na mapie
01723 WILSDRUFF OT KESSELSDORF
Zobacz na mapie
5503 LM Veldhoven
Zobacz na mapie