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SOLUTION PROCESSED HIGH PERFORMANCE TRANSPARENT ORGANIC PHOTOVOLTAIC CELLS (SOLPROCEL)
Start date: Nov 1, 2013, End date: Oct 31, 2016 PROJECT  FINISHED 

"The triggering of SOLPROCEL took place when COMSA EMTE and ICFO realized the potential that an organic photovoltaic (OPV) based technology has to be incorporated in transparent modules to generate electricity. Indeed, the OPV technology is the only one capable of producing semitransparent colorless cells providing a clear and undistorted image when looking through the device. It can be perfectly integrated in buildings façades offering an enormous potential for electricity production units to penetrate in urban areas. However, COMSA EMTE is well aware that transparent OPV cells are not yet ready for a module production phase and priority must be given to material research. Several issues, spanning from the development of low cost module fabrication to having stable and durable devices, must be addressed. Much of the success rests on having the materials for such low cost module fabrication. To achieve an optimal light harvesting in a solution-processed semitransparent OPV cell, we propose to combine the device processing developed by FAU with the photonic control developed by ICFO. Encouraged by COMSA EMTE and FAU, ICFO took the lead of SOLPROCEL. The project incorporates 3 companies which will be able to industrially produce the PV and nano materials needed in solution-processed OPV cells: Specific Polymers the PV polymers, Nanograde the nanoparticles used in the buffer layers, and RAS the Ag nanowires used in the electrodes. In SOLPROCEL such companies will be guided by three research institutions which can provide complementary knowhow in three of the fundamental aspects of OPV technology: nano-fabrication (FAU), light management (ICFO), and organic synthesis (FhG-IAP). The quantifiable goal of SOLPROCEL is to obtain the materials needed for fully solution-processed high performance transparent OPV cells and to raise the efficiency of such cells from 5.6% to 9%. This later value corresponding to 80% of the 12% efficiency of the corresponding opaque cell."
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