Chinese and New Zealand Researchers Achieve Sustainable Carbon Dioxide Conversion
Beijing, The Gulf Observer: A collaborative team of researchers from China and New Zealand has achieved a significant milestone in the field of sustainable technology by developing a membrane that efficiently converts carbon dioxide into formic acid. The breakthrough membrane boasts an impressive operational lifespan of over 5,000 hours.
The research team, comprising scientists from Huazhong University of Science and Technology, University of Science and Technology of China, and University of Auckland, employed an innovative proton-exchange membrane system to facilitate this groundbreaking carbon dioxide conversion.
What sets this technology apart is its durability, with the membrane’s efficient performance attributed to a catalyst derived from waste lead-acid batteries. The findings of this research were published on Wednesday in the prestigious journal Nature.
The proton-exchange membrane system exhibits exceptional conversion efficiency, surpassing 90 percent. Moreover, the researchers have validated its preliminary feasibility for industrial applications, marking a crucial step towards integrating this technology into real-world processes.
This breakthrough is particularly significant as it aligns with the global pursuit of sustainable solutions for carbon dioxide reduction. The electrolysis process, as demonstrated by this membrane technology, plays a pivotal role in converting carbon dioxide into valuable and useful chemicals.
China, in its commitment to addressing climate change, has set ambitious targets, aiming to peak carbon dioxide emissions by 2030 and achieve carbon neutrality by 2060. Technologies like the one developed by the collaborative research team contribute to these goals by offering sustainable pathways for reducing carbon emissions.
The success of this membrane technology not only showcases the potential for innovative solutions in carbon reduction but also emphasizes the importance of international collaboration in advancing sustainable practices. As the world seeks ways to build a more sustainable and carbon-neutral future, breakthroughs such as this hold promise for mitigating the impact of carbon emissions on the environment
