Scientists in Saudi Arabia demonstrated a slot-die coating process for production of perovskite solar cells from a specially engineered ‘ink’. Using the process, the group fabricated a perovskite/silicon tandem cell that recorded 23.8% efficiency.
Though perovskite solar cells have proved their potential in a plethora of lab experiments over the past decade, scaling these achievements up into mass production is something else entirely, and as a new technology, plenty of unanswered questions remain for perovskites in a commercial setting.
Slot-die coating (SDC), a process already used in various industries where an ink is pushed through a narrow slot as it moves across a substrate to form a continuous film, is among several techniques being investigated for perovskite solar cell production.
“As a community, we need to start looking at the stability and scalability of PSC technology,” explains Anand Subbiah, a postdoc researcher at Saudi Arabia’s King Abdullah University of Science and Technology (KAUST). “This high-throughput technique would allow for roll-to-roll fabrication, similar to printing newspapers.”
A group at KAUST investigated slot-die coating processes, aiming to develop a suitable perovskite ink for deposition onto a substrate. They developed a process coating substrates with the ink at a head speed of 15mm per second and a temperature of 70 degrees Celsius. These cells are then annealed at 100 degrees Celsius for several minutes.
The biggest challenge they found was that a material commonly used as a transport layer in perovskite cells, polytriarylamine (PTAA), is also hydrophobic and repellent to the liquid ink, leading to problems with film quality and at the interface between the film and PTAA layer. Adding a surfactant to the ink mix, lowering its surface tension, offered a solution to this.
Ultimately, the group fabricated perovskite solar cells that reached 21.8% efficiency. They also demonstrated that, with a few adaptations, the same process can deposit the perovskite ink directly onto textured silicon to form a tandem cell. In the paper High-Performance Perovskite Single Junction and Textured Perovskite/Silicon Tandem Solar Cells via Slot-Die-Coating, published in ACS Energy Letters, the group reports fabricating a perovskite/silicon tandem cell with 23.8% efficiency.
The group notes that there are still many more challenges to overcome in adapting such processes to large-scale production. The cells described in this paper are much smaller than commercial products (0.1cm² for the standalone perovskite cell and 1cm² for the tandem device), and covering larger areas while maintaining performance is not trivial.
“The development of scalable deposition techniques for perovskite solar cells is essential to bring this technology from the research labs to the market,” says KAUST associate professor Stefaan De Wolf. “Our next steps are making large-area devices and modules using our developed technology and testing their stability in the lab and the outdoors, while continuing to improve performance.”
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Source: pv magazine