期刊
JOURNAL OF ENERGY STORAGE
卷 68, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.est.2023.107720
关键词
Metal hydride; Enthalpy; Mg-intermetallics; Machine learning; Thermal energy storage; Li -battery
By applying machine learning model and high-throughput screening, the study finds that Mg-containing intermetallic compounds have great potential in hydrogen storage, thermal energy storage, and lithium conversion electrode applications, contributing to the transition to clean energy. Furthermore, the stability of Mg-containing hydrides can be tailored by alloying, enhancing their hydrogen storage performance. The research outcomes provide guidance for the development and application of novel materials.
The development of novel materials for hydrogen storage and conversion applications is expected to facilitate the transition to clean energy. In particular, near-ambient hydrogen storage, thermal energy storage, and lithium conversion electrodes are selected in this study as the applications for which the development of novel Mgcontaining materials is of great importance. We utilize a machine learning model, based on the graph neural network, developed for predicting hydride formation enthalpy in intermetallic compounds, to perform highthroughput screening based on the atomic composition and crystal structure of the starting intermetallic compounds. Trends and structure-property relations are discussed, as well as the possibilities for tailoring the stability of Mg-containing hydrides by alloying. For 636 compounds identified as stable by DFT calculations, we predict hydride formation enthalpy and equilibrium potential of metal hydride conversion electrode for Li-ion batteries. Based on the predicted enthalpy of hydride formation, 32 intermetallics are identified as suitable for near-ambient hydrogen storage applications. Among them, MgBe13, seen as a promising material to achieve a high gravimetric density of hydrogen, is additionally studied using DFT. Further investigation of the Na-Mg-Al alloys is proposed as a good route in the search for new thermal energy storage materials. Binary Mgcontaining intermetallics are discussed as conversion-type negative electrodes in Li-ion batteries.
作者
我是这篇论文的作者
点击您的名字以认领此论文并将其添加到您的个人资料中。
推荐
暂无数据