用杂化GNN/DFT方法发现化学修饰的高硼化钨

IF 9.4 1区材料科学 Q1 CHEMISTRY, PHYSICAL

npj Computational Materials Pub Date : 2025-06-02 DOI:10.1038/s41524-025-01628-z

Nikita A. Matsokin, Roman A. Eremin, Anastasia A. Kuznetsova, Innokentiy S. Humonen, Aliaksei V. Krautsou, Vladimir D. Lazarev, Yuliya Z. Vassilyeva, Alexander Ya. Pak, Semen A. Budennyy, Alexander G. Kvashnin, Andrei A. Osiptsov

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引用次数: 0

摘要

数据驱动的解决方案广泛地辅助了新晶体结构的高通量搜索。在这里，我们将以数据高效的方式讨论它们在更狭义的应用中的前景。为了验证和实验验证所提出的方法，我们考虑了高钨硼化物、WB4.2和8种金属作为W取代基的结构，设置了一个包含375k+不等效晶体结构的固溶体搜索空间。利用图神经网络对大约200个元的dft衍生性质进行微调，预测了它们的热力学性质，误差为几meV/原子。在考虑的取代基中，Ta提供了最广泛的预测稳定浓度，并导致了最显著的机械性能变化。采用真空电弧等离子体法制备了不同浓度的高钨硼化物。测定不同Ta含量的WB5-x试样的维氏硬度，硬度有所提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Discovery of chemically modified higher tungsten boride by means of hybrid GNN/DFT approach

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Discovery of chemically modified higher tungsten boride by means of hybrid GNN/DFT approach

High-throughput search for new crystal structures is extensively assisted by data-driven solutions. Here we address their prospects for more narrowly focused applications in a data-efficient manner. To verify and experimentally validate the proposed approach, we consider the structure of higher tungsten borides, WB_4.2, and eight metals as W substituents to set a search space comprising 375k+ inequivalent crystal structures for solid solutions. Their thermodynamic properties are predicted with errors of a few meV/atom using graph neural networks fine-tuned on the DFT-derived properties of ca. 200 entries. Among the substituents considered, Ta provides the widest range of predicted stable concentrations and leads to the most considerable changes in mechanical properties. The vacuumless arc plasma method is used to perform synthesis of higher tungsten borides with different concentrations of Ta. Vickers hardness of WB_5-x samples with different Ta contents is measured, showing increase in hardness.

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来源期刊

npj Computational Materials Mathematics-Modeling and Simulation

CiteScore

15.30

自引率

5.20%

发文量

229

审稿时长

6 weeks

期刊介绍： npj Computational Materials is a high-quality open access journal from Nature Research that publishes research papers applying computational approaches for the design of new materials and enhancing our understanding of existing ones. The journal also welcomes papers on new computational techniques and the refinement of current approaches that support these aims, as well as experimental papers that complement computational findings. Some key features of npj Computational Materials include a 2-year impact factor of 12.241 (2021), article downloads of 1,138,590 (2021), and a fast turnaround time of 11 days from submission to the first editorial decision. The journal is indexed in various databases and services, including Chemical Abstracts Service (ACS), Astrophysics Data System (ADS), Current Contents/Physical, Chemical and Earth Sciences, Journal Citation Reports/Science Edition, SCOPUS, EI Compendex, INSPEC, Google Scholar, SCImago, DOAJ, CNKI, and Science Citation Index Expanded (SCIE), among others.