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Radical-Driven Crystal-Amorphous-Crystal Transition of a Metal-Organic Framework

Title
Radical-Driven Crystal-Amorphous-Crystal Transition of a Metal-Organic Framework
Author(s)
Park, SeonghunLee, JuhyungKim, BongkyeomJung, Chan-YongBae, Sang-EunKang, JoongooMoon, DohyunPark, Jinhee
Issued Date
2024-04
Citation
Journal of the American Chemical Society, v.146, no.13, pp.9293 - 9301
Type
Article
Keywords
SINGLE-CRYSTAL
ISSN
0002-7863
Abstract
Self-assembly-based structural transition has been explored for various applications, including molecular machines, sensors, and drug delivery. In this study, we developed new redox-active metal-organic frameworks (MOFs) called DGIST-10 series that comprise π-acidic 1,4,5,8-naphthalenediimide (NDI)-based ligands and Ni2+ ions, aiming to boost ligand-self-assembly-driven structural transition and study the involved mechanism. Notably, during the synthesis of the MOFs, a single-crystal-amorphous-single-crystal structural transition occurred within the MOFs upon radical formation, which was ascribed to the fact that radicals prefer spin-pairing or through-space electron delocalization by π-orbital overlap. The radical-formation-induced structural transitions were further confirmed by the postsynthetic solvothermal treatment of isolated nonradical MOF crystals. Notably, the transient amorphous phase without morphological disintegration was clearly observed, contributing to the seminal structural change of the MOF. We believe that this unprecedented structural transition triggered by the ligand self-assembly magnifies the structural flexibility and diversity of MOFs, which is one of the pivotal aspects of MOFs. © 2024 American Chemical Society.
URI
http://hdl.handle.net/20.500.11750/56861
DOI
10.1021/jacs.4c01040
Publisher
American Chemical Society
Related Researcher
  • 강준구 Kang, Joongoo
  • Research Interests Computational Materials Science & Materials Design; Nanomaterials for Energy Applications; Theoretical Condensed Matter Physics
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Appears in Collections:
Department of Physics and Chemistry Computational Materials Theory Group 1. Journal Articles
Department of Physics and Chemistry Organic-Inorganic Hybrids Lab 1. Journal Articles

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