利用具有 8,8 连接 bcu 网拓扑结构的三维共价有机框架实现苯/环己烷的高选择性分离

IF 9.6 1区化学 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY ACS Materials Letters Pub Date : 2024-06-18 DOI:10.1021/acsmaterialslett.4c00756

Yu Zhao, Tsukasa Irie, Dan Wen, Haruna Mabuchi, Kohki Sasaki, Mika Nozaki, Rina Tomioka, Weidong Zhu, Saikat Das*, Teng Ben* and Yuichi Negishi*,

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引用次数: 0

摘要

在这里，我们报告了发现的首个 (8,8) 连接的三维共价有机框架 (COF)--TUS-88，它通过将一个 8 连接的 D4h 对称四棱柱节点连接到一个 8 连接的 D2h 对称四方棱柱节点，从而形成了 bcu 拓扑结构。芘的π芳香共轭体系和构成 COF 支架的大量芳香苯基环促进了与芳香苯（Bz）分子之间更强的 π---π 相互作用，因此 TUS-88 的 Bz 吸收率达到了 464 cm3 g-1，环己烷（Cy）吸收率为 224 cm3 g-1，理想的 Bz/Cy 选择性为 2.07（这是目前的基准）。使用 Bz/Cy（1:1，v/v）混合物进行的突破实验证实了 COF 优先吸附混合物中的 Bz，生成高纯度 Cy 的时间间隔为 75.4 分钟 g-1，Bz/Cy 的突破选择性达到创纪录的 2.46。

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Highly Selective Separation of Benzene/Cyclohexane by Three-Dimensional Covalent Organic Framework with 8,8-Connected bcu Net Topology

Here, we report the discovery of the first (8,8)-connected three-dimensional (3D) covalent organic framework (COF), TUS-88, having bcu topology by linking an 8-connected D_4h-symmetric quadrangular prism node to an 8-connected D_2h-symmetric tetragonal prism node. Derived from the π-aromatic conjugated system of pyrene and the abundant aromatic phenyl rings composing the COF scaffold, which promotes stronger π···π interactions with aromatic benzene (Bz) molecules, a superlative Bz uptake of 464 cm³ g^–1 was achieved for TUS-88, coupled with exemplary cyclohexane (Cy) uptake of 224 cm³ g^–1 and ideal Bz/Cy selectivity of 2.07 which are the current benchmark. Breakthrough experiments accomplished using a Bz/Cy (1:1, v/v) mixture corroborated the preferential adsorption of Bz by the COF from the mixture to generate high-purity Cy with a significant time interval of 75.4 min g^–1 and a record-setting Bz/Cy breakthrough selectivity of 2.46.

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来源期刊

ACS Materials Letters MATERIALS SCIENCE, MULTIDISCIPLINARY-

CiteScore

14.60

自引率

3.50%

发文量

261

期刊介绍： ACS Materials Letters is a journal that publishes high-quality and urgent papers at the forefront of fundamental and applied research in the field of materials science. It aims to bridge the gap between materials and other disciplines such as chemistry, engineering, and biology. The journal encourages multidisciplinary and innovative research that addresses global challenges. Papers submitted to ACS Materials Letters should clearly demonstrate the need for rapid disclosure of key results. The journal is interested in various areas including the design, synthesis, characterization, and evaluation of emerging materials, understanding the relationships between structure, property, and performance, as well as developing materials for applications in energy, environment, biomedical, electronics, and catalysis. The journal has a 2-year impact factor of 11.4 and is dedicated to publishing transformative materials research with fast processing times. The editors and staff of ACS Materials Letters actively participate in major scientific conferences and engage closely with readers and authors. The journal also maintains an active presence on social media to provide authors with greater visibility.

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