Robots develop new semiconductor materials in tests that are 10 times faster & greener – Down To Earth Magazine
With the technology, scientists have been able to develop alloys with perovskites materials that can improve solar cells
Scientists have created a robot that can do material testing in a more efficient and sustainable manner, according to a new report published in the journal Matter.
In much shorter time than it would take scientists, RoboMapper, the new technology, has already identified perovskite materials used in solar cells that have more stability and efficiency.
The researchers gave the robot a set of materials and asked it to develop alloys with the same. It came up with 150 different compositions and ran various tests on them to understand the following things:’
The data was used to build a computational model “that identified a specific alloy composition that it predicted would have the best combination of desired attributes”.
“RoboMapper allows us to conduct materials testing more quickly, while also reducing both cost and energy overhead – making the entire process more sustainable,” said Aram Amassian, corresponding author of a paper on the work and a professor of materials science and engineering at North Carolina State University.
The conventional process is much longer and energy-consuming. A scientist has to prepare a sample and test each of them individually using multiple instruments. This involves placing, aligning and calibrating samples as needed to collect the data, according to the authors of the report.
“The material we identified using RoboMapper also turned out to be more efficient at converting light into electricity in solar cell devices,” Amassian observed.
Previous efforts made the process a little quicker, “but each of the steps still had to be done with one sample at a time”. Most of the tech would have a sample per chip moving through the entire data collection process.
“RoboMapper also automates this process, but places dozens of samples on each chip by miniaturising the material samples with the help of modern printing,” Amassian said. “It still performs each step of the data collection process, but it does so for multiple materials in parallel, saving time and energy.”
The new, more sustainable method is nearly 10 times faster than previous automated techniques, said Tonghui Wang, lead author of the paper and a PhD student at NC State University.
The process also reduced greenhouse gas emissions of the characterisation process by 10 times, the authors noted.
Using the tech, scientists already made great strides in overcoming a major challenge in improving solar cells: How to make them with perovskites. The material is desirable because it can absorb sunlight better than silicon, which means the cells can be lighter. But its stability has been a challenge as it degrades on exposure to light and are stripped of its valuable properties.
Going forward, the scientists want to expand the range of potential alloys for testing to be used in photovoltaic cells and other devices.
We are a voice to you; you have been a support to us. Together we build journalism that is independent, credible and fearless. You can further help us by making a donation. This will mean a lot for our ability to bring you news, perspectives and analysis from the ground so that we can make change together.
Comments are moderated and will be published only after the site moderator’s approval. Please use a genuine email ID and provide your name. Selected comments may also be used in the ‘Letters’ section of the Down To Earth print edition.
Down To Earth is a product of our commitment to make changes in the way we manage our environment, protect health and secure livelihoods and economic security for all. We believe strongly that we can and must do things differently. Our aim is to bring you news, perspectives and knowledge to prepare you to change the world. We believe information is a powerful driver for the new tomorrow.
© Copyright Down To Earth 2024. All rights reserved.