Recently, a team of scientists at Monash University in Australia used3D printingA new system was built for the key components of the company, which greatly shortened the time for solar cell testing. This machine can analyze 16 samples of perovskite-based solar cells at the same time, greatly speeding up the analysis process.
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New inventions mean that people can evaluate the performance and commercial potential of new compounds very quickly, significantly speeding up the development process.
Adam Surmiak, project leader of the Australian Research Council (ARC) Center of Excellence in Exciton Science, said: “The third-generation perovskite battery has improved its performance to more than 25%, which is almost the same as traditional silicon. The efficiency level of the base battery is the same. However, these results are all laboratory tests performed on millimeter-sized samples under indoor conditions, so all factors in the real world, such as environmental conditions, battery use, manufacturing process, and Deterioration may occur over time. In order to make the right decision, we need to know how each different unit design works on a large scale in reality. In order to do this, we need a suitable database, so We can then select the best candidates for the next stage of work. This new system allows us to build very quickly and accelerate the transition from laboratory to manufacturing.”
The correct formulation of perovskite-type solar cells is considered a crucial step in the transition from fossil fuels to renewable energy. The cost of perovskite-type solar cells is 10 times lower than that of silicon cells, and the manufacturing cost is much lower. Rooftop solar panels made of perovskite can pay for themselves within a few months, while existing models of solar cells will take years to pay for themselves.
In order to achieve the high level of accuracy required to build the system, the researchers used ultra-fine milling technology and 16 micron precision3D printingThe machine completed their design. In addition to building this new test facility, the researchers were also able to significantly speed up the actual solar cell manufacturing process.
Simike said: “Experimental high-throughput concepts will become more and more important for the discovery of next-generation energy materials, thereby driving the transition to a carbon-neutral energy economy. Our new equipment can test thousands of people in one day. A solar cell puts us ahead of almost all other R&D laboratories in the world.”
The research was published in the “Solar RRL” magazine.
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