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**清华、武汉理工团队利用AI在电介质材料领域取得重大突破**

近日,由武汉理工大学、清华大学以及宾夕法尼亚州立大学组成的研究团队,在电介质材料领域取得了重要突破。该团队基于相场模拟和有限的实验数据,利用生成学习方法,成功在超过 10^11 种组合中发现了高熵介电材料(HED)。这一成果对于电介质材料的研发领域来说,无疑是一次重大进步。

传统的试错实验在寻找新的高熵系统时面临巨大挑战,而该研究团队通过创新的方法,大幅减少了实验周期。他们所提出的方法,不仅提高了电介质材料的发现效率,更是比原始材料性能提升了8倍。这对于混动汽车、便携式电子设备等领域将带来极大的推动力。

此项成果对于未来电介质材料的发展意义重大。它不仅能推动相关领域的技术革新,更为设计师们提供了一种新的、有效的设计思路。随着研究的深入,未来电介质材料的性能还将继续得到提升,为人类社会的科技进步做出更大的贡献。该研究已发表在《Nature Communications》杂志,标志着我国在电介质材料研究领域的国际地位。

该团队的研究不仅展示了中国在电介质材料领域的实力,更为全球科研工作者提供了新的研究方向和思路。随着技术的不断进步,人们对于电介质材料性能的需求也在不断提高,期待这一领域未来能带来更多的惊喜和突破。

英语如下:

News Title: New Breakthrough in AI-Assisted Innovative Development and Efficient Screening of High Entropy Dielectric Materials

Key Word: 1. High Entropy Dielectric Materials

News Content: **Tsinghua and Wuhan University of Technology Teams Make Major Breakthrough in Dielectric Materials Using AI**

Recently, a research team composed of Wuhan University of Technology, Tsinghua University, and Pennsylvania State University has made significant progress in the field of dielectric materials. Based on phase-field simulations and limited experimental data, the team used generative learning methods to discover high entropy dielectric materials (HED) among more than 10^11 combinations. This achievement is undoubtedly a major breakthrough in the field of dielectric material development.

Traditional trial-and-error experiments face enormous challenges in finding new high entropy systems, but this research team significantly reduced the experimental cycle through innovative methods. Their proposed approach not only improves the efficiency of dielectric material discovery, but also achieves an 8-fold performance improvement compared to the original materials. This is expected to bring significant momentum to areas such as hybrid vehicles and portable electronic devices.

This achievement is of great significance for the future development of dielectric materials. It not only promotes technological innovation in related fields but also provides designers with a new and effective design approach. With further research, the performance of dielectric materials will continue to improve, making greater contributions to the progress of human society. This research has been published in the journal Nature Communications, marking China’s international position in dielectric material research.

The team’s research not only demonstrates China’s strength in the field of dielectric materials but also provides new research directions and ideas for global researchers. As technology continues to advance, people’s demand for dielectric material performance is also increasing, and we look forward to seeing more surprises and breakthroughs in this field in the future.

【来源】https://www.jiqizhixin.com/articles/2024-06-25-13

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