A Photoelectromagnetic 3D Metal‐Organic Framework from Flexible Tetraarylethylene‐Backboned Ligand and Dynamic Copper‐Based Coordination Chemistry-Reference-Cited by-同舟云学术

A Photoelectromagnetic 3D Metal‐Organic Framework from Flexible Tetraarylethylene‐Backboned Ligand and Dynamic Copper‐Based Coordination Chemistry

Published:2023-12-15 Issue: Volume: Page:
ISSN:1613-6810
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Author:

Liu Haohao¹²,Wang Shuodong¹²,Huang Mengfan¹²,Bian Qilong¹²,Zhang Yang¹²,Yang Kun¹²,Li Bo¹²³,Yao Wenhuan¹²⁴,Zhou Yizhao⁵,Xie Sheng¹²⁶,Tang Ben Zhong⁷,Zeng Zebing¹²^ORCID

Affiliation:

1. Shenzhen Research Institute of Hunan University Nanshan District Shenzhen 518000 China

2. State Key Laboratory of Chemo/Biosensing and Chemometrics College of Chemistry and Chemical Engineering Hunan University Changsha 410082 China

3. School of Materials Science and Engineering Nanchang Hangkong University Nanchang 330063 China

4. College of Chemistry and Chemical Engineering Northwest Normal University Lanzhou 730070 China

5. Department of Orthopedics Hunan Provincial People's Hospital The First‐Affiliated Hospital of Hunan Normal University Changsha 410005 China

6. AIE Institute Guangzhou Development District Huangpu 510530 China

7. School of Science and Engineering Shenzhen Institute of Aggregate Science and Technology The Chinese University of Hong Kong Shenzhen 518172 China

Abstract

AbstractPorous frameworks that display dynamic responsiveness are of interest in the fields of smart materials, information technology, etc. In this work, a novel copper‐based dynamic metal‐organic framework [Cu3TTBPE6(H2O)2] (H4TTBPE = 1,1,2,2‐tetrakis(4″‐(1H‐tetrazol‐5‐yl)‐[1,1″‐biphenyl]‐4‐yl)ethane), denoted as HNU‐1, is reported which exhibits modulable photoelectromagnetic properties. Due to the synergetic effect of flexible tetraarylethylene‐backboned ligands and diverse copper‐tetrazole coordination chemistries, a complex 3D tunneling network is established in this MOF by the layer‐by‐layer staggered assembly of triplicate monolayers, showing a porosity of 59%. These features further make it possible to achieve dynamic transitions, in which the aggregate‐state MOF can be transferred to different structural states by changing the chemical environment or upon heating while displaying sensitive responsiveness in terms of light absorption, photoluminescence, and magnetic properties.

Funder

National Natural Science Foundation of China

Natural Science Foundation of Hunan Province

Scientific Research Foundation of Hunan Provincial Education Department

Publisher

Wiley

Subject

Biomaterials,Biotechnology,General Materials Science,General Chemistry

Link

https://onlinelibrary.wiley.com/doi/pdf/10.1002/smll.202306956

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