**微软与PNNL合作,AI技术加速新材料研发,电池锂用量有望锐减70%**
微软公司与美国太平洋西北国家实验室(PNNL)近日宣布,通过人工智能(AI)技术的助力,他们成功地在80小时内筛选出23种具有潜力的电池新材料,这一过程在传统方法下可能需要长达20年的时间。在这次合作中,研究团队对3200万种潜在材料进行了高效筛选,最终确定了5种已知材料和另外18种新发现的候选材料。
这一突破性进展对电池行业具有重大意义,特别是对于锂金属的使用。据团队介绍,这些新材料的应用有可能将电池中的锂金属使用量减少高达70%,这不仅将降低电池生产成本,还有望显著提升电池的可持续性和环保性能。随着电动汽车和可再生能源存储需求的增长,减少对稀有金属的依赖成为了行业亟待解决的问题,微软和PNNL的这项研究为此提供了新的解决方案。
此次合作展示了AI在科学研究中的强大应用潜力,加速了新材料的发现过程,同时也预示着未来电池技术可能迎来重大变革。随着这些新材料的进一步研究和开发,我们有望见证更加高效、环保的电池产品面世,为全球能源转型贡献力量。
英语如下:
**News Title:** “Microsoft and PNNL Collaborate, AI Accelerates New Material Discovery: 80-Hour Work Replaces 20 Years, 70% Less Lithium Usage in Batteries”
**Keywords:** AI, New Material Discovery, Lithium Reduction, Microsoft PNNL Collaboration
**News Content:**
Microsoft and the Pacific Northwest National Laboratory (PNNL) have recently announced that, with the aid of artificial intelligence (AI) technology, they have successfully identified 23 promising new battery materials within 80 hours – a task that would have taken up to 20 years using conventional methods. In this collaboration, the research team efficiently screened 32 million potential materials, narrowing it down to five known substances and 18 novel candidates.
This breakthrough holds significant implications for the battery industry, particularly in the use of lithium metal. The team explains that the application of these new materials could reduce lithium metal usage in batteries by up to 70%, potentially lowering production costs and significantly enhancing battery sustainability and environmental performance. As the demand for electric vehicles and renewable energy storage grows, reducing reliance on rare metals has become a pressing issue. This research by Microsoft and PNNL offers a new solution to this challenge.
The collaboration showcases the immense potential of AI in scientific research, expediting the discovery of new materials and foreshadowing a major transformation in battery technology. As these materials undergo further study and development, we can anticipate the emergence of more efficient and eco-friendly battery products, contributing to the global energy transition.
【来源】https://www.ithome.com/0/744/309.htm
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