Chinese manufacturer GCL recently indicated that it is nearing commercialization of perovskite solar technology. “Once the conversion rate [of] perovskite is close to what monocrystalline product does, which is coming soon, the only obstacle for perovskite to take [the] place of mono is the limitation of its production capacity,” GCL Nano Technology general manager Fan Bin said at a recent industry conference which considered the potential of perovskite.

Discussing GCL’s work with perovskites, Fan said his company’s lab has achieved a conversion efficiency of 16% on a large panel and he is confident 18% could be achieved by the end of the year. With a theoretical conversion limit of around 33% thought to apply to perovskite cell efficiency – and possibly up to 47% for a tandem device – the manager voiced confidence perovskites would soon surpass the 18% threshold.

With an experimental, 10 MW perovskite production line already in operation, GCL intends to ramp up to 100 MW next year and 1 GW in 2021-22, in time to supply what may well be a gigawatt scale global market in three years’ time.

The reason for pursuing perovskite development is the potentially much cheaper cost of such devices, compared to silicon products. Fan’s team has calculated a gigawatt of perovskite-based solar generation capacity could cost around RMB300 million ($42 million), compared to RMB1.1 billion for the conventional silicon alternative and up to RMB5 billion for thin-film options such as CIGS and CdTe devices.

With perovskite also boasting much better defect tolerance than the current generation of silicon cells, such devices also offer the prospect of more stable operation in harsh light, heat and humidity, if packaged correctly. However, Fan warned there will not be enough time left to mitigate climate change using perovskite devices if the technology goes down the sort of blind alleys thin-film cells did during their development. “There will be not too much time window left for [the] perovskite cell” in that scenario, he stressed.



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