Plastic photovoltaic devices offer interesting perspectives such as lightness, flexibility and process sustainability as well as cheap cost under 1 € / Wp. On the basis plastic photovoltaic devices are suitable to play a predominant role in all those applications, such as tissues, paints and disposable, where low efficiency (2 -6%) and scarce stability (~ 10000 hours) are almost sustainable. The present study describes the basic principles for the fabrication of a plastic photovoltaic device as well as the strategies adopted in our laboratories to improve performance and stability to make it more attractive for future industrial scale-up
L. Setti, D. Caretti, M. Lanzi, F. Errani (2011). Dispositivi plastici fotovoltaici a ridotto impatto ambientale. RIMINI : Maggioli Editore.
Dispositivi plastici fotovoltaici a ridotto impatto ambientale
SETTI, LEONARDO;CARETTI, DANIELE;LANZI, MASSIMILIANO;ERRANI, FRANCESCO
2011
Abstract
Plastic photovoltaic devices offer interesting perspectives such as lightness, flexibility and process sustainability as well as cheap cost under 1 € / Wp. On the basis plastic photovoltaic devices are suitable to play a predominant role in all those applications, such as tissues, paints and disposable, where low efficiency (2 -6%) and scarce stability (~ 10000 hours) are almost sustainable. The present study describes the basic principles for the fabrication of a plastic photovoltaic device as well as the strategies adopted in our laboratories to improve performance and stability to make it more attractive for future industrial scale-upI documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
