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Groundbreaking Achievement in Carbon Dioxide Conversion

WUHAN, China ÔÇô Researchers at the Huazhong University of Science and Technology (HUST) in Wuhan, China, have made a groundbreaking discovery in fixing carbon dioxide gas from the atmosphere into useful chemical products. This achievement has been described as a ÔÇ£milestoneÔÇØ by scientists, as reported by the South China Morning Post.

As the global effort to combat climate change intensifies, finding ways to capture and convert carbon dioxide into valuable products like methanol, ethanol, alkanes, and olefins has become a top priority. However, existing conversion systems have faced a major limitation – they can only operate for about a hundred hours, hindering their scalability for large-scale applications.

One common method used by scientists involves electrochemical processes, where an electric charge is applied to modify the chemical properties of carbon dioxide. This typically involves breaking down the carbon dioxide molecules and adding other elements like hydrogen to generate hydrocarbons such as ethanols or formic acid.

However, these systems often face challenges due to the formation of unwanted by-products like carbonates that reduce the efficiency of the process. This issue has limited the lifespan of lab equipment to a few hundred hours.

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Researchers at HUST collaborated with experts from the University of Auckland, New Zealand, over a five-year period to address these challenges. Their efforts paid off when they identified an electrolyte that could sustain the systems for up to 5,000 hours, outperforming all known approaches to date. This significant breakthrough was accompanied by an impressive efficiency rate of 93%.

Notably, the electrolytes utilized by the research team were sourced from discarded lead-acid batteries, presenting a sustainable solution for their disposal. Lead-acid batteries are widely used in sectors like automotive, energy, and military industries, but their disposal has proven to be a persistent challenge.

To learn more about this groundbreaking research, please visit Interesting Engineering.

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