Health & Environmental Research Online (HERO)


Print Feedback Export to File
7225749 
Journal Article 
Life Cycle Assessment (LCA) of perovskite PV cells projected from lab to fab 
Celik, I; Song, Z; Cimaroli, AJ; Yan, Y; Heben, MJ; Apul, D; , 
2016 
Solar Energy Materials and Solar Cells
ISSN: 0927-0248 
ELSEVIER SCIENCE BV 
AMSTERDAM 
157-169 
WOS:000383304100017 
Perovskite photovoltaic cells (PVs) have attracted significant worldwide attention in the past few years. Although the stability of the power conversion is a concern, there is great potential for perovskites to enter the global PV market. To determine the future potential of perovskites, we performed a cradle-to-gate environmental life cycle (LCA) for two different perovskite device structures suitable for low cost manufacturing. Rather than examining current laboratory deposition processes like dipping and spinning, we considered spray and co-evaporation methods that are more amenable to manufacturing. A structure with an inorganic hole transport layer (HTL) was developed for both solution and vacuum based processes, and an HTL-free structure with printed with back contact was modeled for solution based deposition. The environmental impact of conventional Si PV technology was used as a reference point. The environmental impacts from manufacturing of perovskite solar cells were lower than that of mono-Si. However, environmental impacts from unit electricity generated were higher than all commercial PV technology mainly because of the shorter lifetime of perovskite solar cell. The HTL-free perovskite generally had the lowest environmental impacts among the three structures studied. Solution based methods used in perovskite deposition were observed to decrease the overall electricity consumption. Organic materials used for preparing the precursors for perovskite deposition were found to cause a high marine eutrophication impact. Surprisingly, the toxicity impacts of the lead used in the formation of the absorber layer were found to be negligible. Energy payback times were estimated as 1.0-1.5 years. (C) 2016 Elsevier B.V. All rights reserved.