AI Robot Discovers Method for Mars Water to Oxygen Production

An artificial intelligence (AI) robot that can perform chemical processes to create oxygen from water on Mars has reportedly been developed by Chinese researchers. The technology may provide astronauts with an additional means of producing much-needed oxygen on Mars in the future. For life to exist, humans traveling to the Red Planet will require oxygen. Additionally, the gas might be utilized to manufacture rocket fuel, which is challenging to ship into space.

Numerous investigations have already shown that there is a significant amount of water on Mars. There is water—it’s called ice. The new robot system’s creators in China claim that it may be utilized to extract oxygen from the planet’s water supply. The study was directed by researchers at the University of Science and Technology of China in Hefei. The researchers investigated the possibility of an AI robot utilizing Martian minerals to create catalysts that would break down water and release oxygen. A substance that allows specific chemical reactions to occur is called a catalyst.

Meteorites that originated on Mars or that included components resembling the Martian surface were used for the experiments. According to the researchers, the “robot chemist” initially separated and analyzed the compounds found in the meteorites using a solution of acid and chemicals. It recognized iron, nickel, magnesium, and aluminum among other metallic elements. The device then went to work identifying various chemicals that meteorite materials could make. The technology discovered over 3.7 million potential chemical pairings, according to the study.

Based on the data, the robot made predictions about which catalysts would be effective in splitting water molecules into oxygen. At minus 37 degrees Celsius, the catalyst that was selected as the best match could function. This temperature is comparable to what’s happening on Mars right now. The AI chemist was able to finish the entire procedure without the need for human intervention in just two months, according to a press statement reporting the experimental results. According to the press statement, completing such an operation “would take 2000 years for a human chemist.”



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