二维层状沸石的合成及其催化、吸附与分离应用

胡诗雨; 闫玥儿; 张亚红; 王振东; 唐颐

doi:10.7536/PC230716

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化学进展 ›› 2024, Vol. 36 ›› Issue (3) : 319-334. DOI: 10.7536/PC230716

综述

二维层状沸石的合成及其催化、吸附与分离应用

胡诗雨 ¹ ,
闫玥儿 ²^,^* ,
张亚红 ¹ ,
王振东 ³ ,
唐颐 ¹^,^*

作者信息 +

Synthesis of Two-Dimensional Layered Zeolites and Their Catalysis, Adsorption and Separation Applications

Shiyu Hu ¹ ,
Yueer Yan ²^,^* ,
Yahong Zhang ¹ ,
Zhendong Wang ³ ,
Yi Tang ¹^,^*

Author information +

文章历史 +

摘要

与三维沸石相比，二维层状沸石具有更大的表面积、更短的扩散距离和更具韧性的结构，在许多领域中都具有更大优势。近年来，二维层状沸石的研究已成为新热点。本文基于前期文献调研总结，从两类合成角度（Bottom-up和Top-down法）归纳了近年来二维沸石的合成方法，重点综述了同种类型沸石的不同合成法的进展。此外，本文简述了二维沸石在催化、吸附和分离领域中的应用，并展望了二维沸石广阔的应用前景，以期为二维沸石的合成与应用提供参考。

Abstract

Compared with three-dimensional zeolites, two-dimensional layered zeolites have greater advantages in many fields, with larger surface area, shorter diffusion distance and more ductile structure. In recent years, the research on two-dimensional layered zeolites has become a new hotspot. Based on previous research and summary, this article summarizes the synthesis methods of two-dimensional zeolites in the past five years from two types of synthesis perspectives (bottom-up and top-down methods), with a focus on reviewing the progress of different synthesis methods for the same topology of zeolite. In addition, this article briefly describes the applications of two-dimensional zeolites in the fields of catalysis, adsorption, and separation and looks forward to the broad application prospects of two-dimensional zeolites so as to provide theoretical guidance and reference basis for the synthesis and application of two-dimensional zeolites.

Contents

1 Introduction

2 Synthesis of two-dimensional layered zeolites

2.1 Bottom-up synthesis method

2.2 Top-down synthesis method

3 Application of two-dimensional layered zeolite

3.1 Catalysis

3.2 Adsorption

3.3 Separation membrane

4 Conclusion and outlook

导出引用

胡诗雨 , 闫玥儿 , 张亚红 , 等. 二维层状沸石的合成及其催化、吸附与分离应用[J]. 化学进展. 2024, 36(3): 319-334 https://doi.org/10.7536/PC230716

, , , et al. Synthesis of Two-Dimensional Layered Zeolites and Their Catalysis, Adsorption and Separation Applications[J]. Progress in Chemistry. 2024, 36(3): 319-334 https://doi.org/10.7536/PC230716

中图分类号： O643.3

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基金

国家重点研发计划(2018YFA0209402)

国家自然科学基金(22072028)

国家自然科学基金(22088101)

上海市自然科学基金(22ZR1407200)

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收稿日期	修回日期	出版日期
2023-07-18	2023-11-21	2024-03-24
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2024-02-26

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