Periodic Reporting for period 2 - CHEOPS (Production technology to achieve low Cost and Highly Efficient phOtovoltaic Perovskite Solar cells)
Reporting period: 2017-08-01 to 2019-01-31
In terms of measurement methodology the partners have set standards in order to relevantly compare their results. These stress the fact that IV measurements must be carried out with MPP after 5 min of stabilisation or that the presented results must be a mean of at least 4 different samples deposited in the same conditions in order to ensure a sufficient statistical significance. On the side of device stability, several encapsulation techniques have been validated that allow preserving the device initial efficiency during the encapsulation process itself.
Regarding the evaluation of the potential technology environmental impact, a set of typical structures (single, tandem) using different materials deposited with various techniques has been established with as much information as possible on their deposition conditions (e.g. type of solvents, typical thickness, water consumption etc.). In addition, a series of tests to evaluate possible environmental impact in case of module breakage has been performed to investigate release of potentially harmful substances into the air, water and ground.
Regarding tandem junction developments, CHEOPS partners have been able to demonstrate the upscaling of tandem devices to areas greatly exceeding the 2x2 cm2 initially requested. Thereby they provide a clear pathway to high efficiency, large area tandem devices. Regarding power conversion efficiencies, while still behind the requested 29%, CHEOPS has set the mark with the highest certified, peer-reviewed result at 25.2% on textured wafers and another internally measured 25.4% on flat wafers. It is worth noting here that the absolute record to date is held by another CHEOPS partner, Oxford PV, at 28%, albeit outside of the CHEOPS project.
Regarding the dissemination and exploitation activities, the results of CHEOPS have been communicated to the wider public via its website and newsletter while an industrial advisory board was implemented to receive advice and inform potentially interested stakeholders about the project progresses. In addition, the results of CHEOPS have been diffused in the scientific community via scientific publication in renowned journals or via the participation to several international conferences. Eventually, CHEOPS also organised a European perovskite cluster event gathering all EU funded projects active in the field of perovskite PV.
Regarding the exploitation of the developed technologies, and beside the direct support to the activities of consortium members, several projects have been set up based on the acquired know-how. These range from direct bilateral collaboration with industrial partners (outside the CHEOPS consortium) to further upscale the technology to other collaborative projects at the national or international level, including other H2020 projects such as PERTPV (Grant agreement No. 763977).
Regarding the broader socio-economic analysis of the technology, it has been shown that its total health and environmental benefit could amount to about €220 M€ per year at the European scale if half of the newly installed photovoltaic installations each year were based on PK technologies rather than c-Si. Balancing health and environmental benefits with the issue of PK cells’ Pb content results in a trade-off largely in favour of a development of PK technologies. Nevertheless, our work has shown that great vigilance must be expected from industry to curb lead emissions to the environment.