用于氢同位素分离的多孔材料设计进展的简要综述

A Mini Review of Advances in Porous Materials Designing for Hydrogen Isotope Separation.

作者信息

Zhu Huafeng, Xu Liangbo, Li Jia, He Duanwei, Wang Jingchuan

机构信息

Institute of Atomic and Molecular Physics, Sichuan University, Chengdu 201800, China.

Institute of Materials Research, Chinese Academy of Engineering Physics, Jiangyou 621908, China.

出版信息

Materials (Basel). 2024 Nov 22;17(23):5708. doi: 10.3390/ma17235708.

DOI:10.3390/ma17235708

PMID:39685143

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11642338/

Abstract

The separation of mixtures of hydrogen isotopes is one of the greatest challenges of modern separation technology. A newly proposed separation mechanism, the quantum sieving (QS) effect, is expected to achieve high separation factors, the main desired properties for hydrogen isotope separation (HIS). Metal-organic frameworks (MOFs) and zeolites are excellent candidates to study these quantum effects because of their well-defined and tunable pore structure and the potential to introduce strong adsorption sites directly into the framework structure. This paper briefly discusses the fundamentals of QS of hydrogen isotopes in nanoporous materials, mainly including kinetic quantum sieving (KQS) and chemical affinity quantum sieving (CAQS). Recent experimental advances in the separation of hydrogen isotopes from MOFs and zeolites are highlighted.

摘要

氢同位素混合物的分离是现代分离技术面临的最大挑战之一。一种新提出的分离机制——量子筛分（QS）效应，有望实现高分离因子，这是氢同位素分离（HIS）的主要理想特性。金属有机框架材料（MOFs）和沸石是研究这些量子效应的理想候选材料，因为它们具有明确且可调节的孔结构，并且有可能将强吸附位点直接引入框架结构中。本文简要讨论了纳米多孔材料中氢同位素量子筛分的基本原理，主要包括动力学量子筛分（KQS）和化学亲和量子筛分（CAQS）。重点介绍了从MOFs和沸石中分离氢同位素的最新实验进展。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e977/11642338/de8437c81e8e/materials-17-05708-g001.jpg

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用于氢同位素分离的多孔材料设计进展的简要综述

A Mini Review of Advances in Porous Materials Designing for Hydrogen Isotope Separation.

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