Using a computationally driven screening to enhance magnetocaloric effect of metal monoborides

IF 7 3区 材料科学 Q1 ENERGY & FUELS
C. Romero-Muñiz, J. Law, L. M. Moreno-Ramírez, Á. Díaz-García, V. Franco
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引用次数: 0

Abstract

In most cases, substitution studies that aim to optimize magnetic properties are performed at the magnetic atomic site. However, in the case of MnB, magnetic substitutions at the Mn site significantly decrease the once promising magnetocaloric and magnetic properties. This study employs computationally directed search to optimize the magnetocaloric properties of MnB where partial substitutions of boron atoms (Mn50B50− x Si x and Mn50B50− x Ge x where x = 3.125, 6.25, and 12.5) reveal new compounds with a greater magnetocaloric effect than pure MnB at the same Curie temperature. These new compounds were obtained by arc melting the pure elements and further characterized. The computationally driven screening process is based on density functional theory calculations that do not require large databases of known compounds. This work demonstrates that using simple computational screening procedures to search for new magnetocaloric materials with improved properties can be done quickly, cost-effectively, and while maintaining reliability.
使用计算驱动的屏蔽增强金属单硼化物的磁热效应
在大多数情况下,旨在优化磁性的替代研究是在磁性原子位点进行的。然而,在MnB的情况下,Mn位点的磁性取代显著降低了曾经有希望的磁热和磁性。本研究采用计算定向搜索来优化MnB的磁热性质,其中硼原子(Mn50B50−x Six和Mn50B50-x Gex,其中x=3.125、6.25和12.5)的部分取代揭示了在相同居里温度下比纯MnB具有更大磁热效应的新化合物。这些新化合物是通过电弧熔炼纯元素获得的,并进一步进行了表征。计算驱动的筛选过程基于密度泛函理论计算,不需要已知化合物的大型数据库。这项工作表明,使用简单的计算筛选程序来搜索具有改进性能的新磁热材料可以快速、经济高效地完成,同时保持可靠性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
10.90
自引率
1.40%
发文量
58
期刊介绍: The Journal of Physics-Energy is an interdisciplinary and fully open-access publication dedicated to setting the agenda for the identification and dissemination of the most exciting and significant advancements in all realms of energy-related research. Committed to the principles of open science, JPhys Energy is designed to maximize the exchange of knowledge between both established and emerging communities, thereby fostering a collaborative and inclusive environment for the advancement of energy research.
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