在人工智能技术的助力下,微软公司近日与太平洋西北国家实验室(PNNL)展开合作,成功地在80小时内完成了原本需要20年才能完成的材料筛选任务。这一突破性的成果将有望使电池中的锂金属使用量大幅减少70%。
通过运用先进的人工智能技术,微软和PNNL从3200万种潜在材料中进行了高效筛选,最终在短短80小时内将候选名单缩小至23种,其中5种为已知材料。相比之下,如果使用传统的筛选方法,这个过程将耗费整整二十多年时间。
这一突破性的技术进步为电池行业带来了巨大的启示。在过去,电池制造过程中的锂金属使用量一直是一个难以克服的难题。然而,借助于人工智能的高效筛选能力,微软和PNNL成功找到了可以在电池中使用的,且能大幅减少锂金属用量的潜在新材料。
这一突破性的成果不仅展示了人工智能在材料科学领域的巨大潜力,也为电池行业的可持续发展提供了新的可能性。未来,随着这一技术的进一步发展和应用,我们有理由相信,电池的性能将得到更大提升,而其对环境的影响也将大大降低。
Title: AI-Powered Microsoft Discovers New Material for Batteries, Cutting Lithium Usage by 70%
Keywords: AI, Microsoft, Lithium Battery
News content:
Thanks to the empowerment of artificial intelligence technology, Microsoft has recently collaborated with the Pacific Northwest National Laboratory (PNNL) to complete a material screening task that would normally take 20 years in just 80 hours. This groundbreaking achievement is expected to significantly reduce the usage of lithium metal in batteries by 70%.
By utilizing advanced AI technology, Microsoft and PNNL have efficiently screened from 32 million potential materials, ultimately narrowing down the list to 23 within 80 hours, with 5 of them being known materials. In contrast, if traditional screening methods were used, this process would take more than 20 years.
This groundbreaking technological breakthrough brings significant insights to the battery industry. In the past, the usage of lithium metal in battery manufacturing has been a challenging issue that has been difficult to overcome. However, with the help of AI’s efficient screening capabilities, Microsoft and PNNL have successfully identified potential new materials that can be used in batteries and significantly reduce the usage of lithium metal.
This groundbreaking achievement not only demonstrates the immense potential of AI in materials science but also opens up new possibilities for the sustainable development of the battery industry. With further development and application of this technology, we have every reason to believe that the performance of batteries will be greatly enhanced, and their environmental impact will be significantly reduced.
【来源】https://www.ithome.com/0/744/309.htm
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