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Lattice Thermal Conductivity: An Accelerated Discovery Guided by Machine Learning

材料科学 声子 机器学习 格子(音乐) 随机森林 算法 热导率 晶体结构 人工智能 晶体结构预测 密度泛函理论 计算机科学 统计物理学 凝聚态物理 计算化学 物理 结晶学 化学 复合材料 声学
作者
Russlan Jaafreh,Yoo Seong Kang,Kotiba Hamad
出处
期刊:ACS Applied Materials & Interfaces [American Chemical Society]
卷期号:13 (48): 57204-57213 被引量:47
标识
DOI:10.1021/acsami.1c17378
摘要

In the present work, we used machine learning (ML) techniques to build a crystal-based model that can predict the lattice thermal conductivity (LTC) of crystalline materials. To achieve this, first, LTCs of 119 compounds at various temperatures (100-1000 K) were obtained based on density functional theory (DFT) and phonon calculations, and then, these data were employed in the next learning process to build a predictive model using various ML algorithms. The ML results showed that the model built based on the random forest (RF) algorithm with an R2 score of 0.957 was the most accurate compared with the models built using other algorithms. Additionally, the accuracy of this model was validated using new cases of four compounds, which was not seen for the model before, where a good matching between calculated and predicted LTCs of the new compounds was found. To find candidates with ultralow LTCs (<1 W m-1 K-1) at room temperature, the model was used to screen compounds (32116) in the Inorganic Crystal Structure Database. From the screened compounds, Cs2SnI6 and SrS were selected to validate the ML prediction using the counterpart theoretical calculations (DFT and phonon), and it was found that the outcome behaviors by both methods (ML prediction and DFT/phonon calculations) are fairly consistent. Considering the type of employed feature, the prime novelty in this work is that the built model can credibly predict the LTC-temperature behaviors of new compounds that are constructed based on prototype structures and chemical compositions, without the use of any DFT-relaxed structure parameters. Accordingly, using the periodic table, prototype structures, and the RF-based model, the LTC-temperature behavior of a huge number of compounds can be predicated.
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