吸附
甲烷
人工神经网络
金属有机骨架
朗缪尔吸附模型
生物系统
热力学
弗伦德利希方程
化学
材料科学
计算机科学
物理化学
人工智能
有机化学
物理
生物
作者
Xuanjun Wu,Zijian Cao,Xiuyang Lü,Weiquan Cai
标识
DOI:10.1016/j.cej.2023.141612
摘要
A rapid method for predicting the unary gas adsorption isotherms of metal–organic frameworks (MOFs) is of great significance for the engineering design of both gas storage and gas separation. Here, we proposed a framework based on neural network (NN) synergistic with classical density functional theory (cDFT) that can be used to accurately predict methane adsorption isotherms of MOFs on a large scale. First, 17,644 candidate MOFs with orthorhombic unit cells were chosen from 324,426 hypothetical structures, and their methane adsorption isotherms were calculated by cDFT. Furthermore, we obtained the isotherm parameters for each MOF by fitting the isotherms with Langmuir equation. Second, the geometrical and chemical properties of all candidates were then calculated to construct the fingerprint descriptors of MOFs. These descriptors and isotherm parameters were used as inputs and targets, respectively, to train a deep neural network model. The trained neural network model can rapidly predict the isotherm parameters and further calculate the methane adsorption isotherms of the MOFs. During the model training, we proposed a physical constraint method embedded in the loss function to make the model better approximate the target isotherm parameters. Finally, we discussed several strategies to improve the prediction accuracy of the neural network.
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