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IF 8.1 1区工程技术 Q1 ENGINEERING, CHEMICAL

Separation and Purification Technology Pub Date : 2025-02-23 DOI:10.1016/j.seppur.2025.132253

Yanjing He, Shitong Zhang, Chongli Zhong

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引用次数: 0

摘要

从氢（H2）中高效分离氦（He）仍然是膜分离过程中的一项重大挑战。在本研究中，我们构建了一个全面的富氟离子液体@阴离子柱状金属有机框架（IL@APMOFs）数据库，并进行了高通量计算筛选（HTCS），以确定有前途的用于氦/氢分离的 IL@APMOF 膜。CatBoost 被认为是最佳的机器学习（ML）算法，利用这一模型，我们发现 IL 含量（IL%）是影响这些膜分离性能的关键因素。基于这一认识，我们通过微调 IL 含量设计并优化了 IL@APMOF 膜。结果验证了 ML 驱动的发现，并证明这一策略产生的 IL@APMOF 结构可显著提高 He/H2 分离效率。这项工作不仅为开发IL@APMOF膜提供了合理的设计策略，还强调了IL改性在推动高性能MOF基膜材料发现中的关键作用。

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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Unlocking the potential of ionic liquids in Anion-Pillared MOFs for enhanced He/H2 separation Performance: A combined computational screening and Machine learning study

Efficient separation of helium (He) from hydrogen (H₂) remains a significant challenge in membrane-based separation processes. In this study, we constructed a comprehensive database of fluorine-rich ionic liquid@anion-pillared metal–organic frameworks (IL@APMOFs) and performed high-throughput computational screening (HTCS) to identify promising IL@APMOF membranes for He/H₂ separation. CatBoost was identified as the optimal machine learning (ML) algorithms, and using this model, we revealed that IL content (IL%) is the key factor governing the separation performance of these membranes. Based on this insight, we designed and optimized IL@APMOF membranes by fine-tuning the IL content. The results validated the ML-driven findings and demonstrated that this strategy produces IL@APMOF structures with significantly enhanced He/H₂ separation efficiency. This work not only provides a rational design strategy for the development of IL@APMOF membranes but also underscores the critical role of IL modification in advancing the discovery of high-performance MOF-based membrane materials.

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来源期刊

Separation and Purification Technology 工程技术-工程：化工

CiteScore

14.00

自引率

12.80%

发文量

2347

审稿时长

43 days

期刊介绍： Separation and Purification Technology is a premier journal committed to sharing innovative methods for separation and purification in chemical and environmental engineering, encompassing both homogeneous solutions and heterogeneous mixtures. Our scope includes the separation and/or purification of liquids, vapors, and gases, as well as carbon capture and separation techniques. However, it's important to note that methods solely intended for analytical purposes are not within the scope of the journal. Additionally, disciplines such as soil science, polymer science, and metallurgy fall outside the purview of Separation and Purification Technology. Join us in advancing the field of separation and purification methods for sustainable solutions in chemical and environmental engineering.