Choe Group
@ChoeGroup
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Digital Discovery Laboratory for Sustainable Future at UNIST #chemistry | metal-organic frameworks #MOFs metal-organic polyhedra #MOPs | Prof. Wonyoung Choe
H5FR+48 Ulsan (7th floor)
Joined September 2019
Check out our new @NatureComms paper with beautiful moiré MOF patterns. Isoreticular moiré metal-organic frameworks with quasiperiodicity. Congrats to the team @JYKim_UNIST @ChanghyeonCho @Joohan_nnam @BJ_J11 @H_Cho_UNIST @chem571 and collaborators @ParkLab_POSTECH @jihankim929.
Just out in @NatureComms! We dive into the quasiperiodicity of moiré 2D MOFs😉🔬. Thanks to @ChoeGroup @chem571 @ChanghyeonCho @Joohan_nnam @BJ_J11 @H_Cho_UNIST and collaborators @ParkLab_POSTECH @jihankim929.
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Check out our new work in @JACS_Au 😆. "Data-Driven Search Algorithm for Discovery of Synthesizable Zeolitic Imidazolate Frameworks".📘 @SoochanLee1 @eunchan_Cho_ @Joohan_nnam @chem571.
pubs.acs.org
Zeolitic imidazolate frameworks (ZIFs), metal–organic analogues of zeolites, hold great potential for carbon-neutral applications due to their exceptional stability and porosity. However, ZIF...
📢Excited to share our outstanding work on @JACS_Au 😁!!. We digitized "chemical intuition💡" — and brought hypothetical structures into reality!!. 🔎 Congratulate to the first author @SoochanLee1 , coworkers and @chem571 @ChoeGroup.
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RT @eunchan_Cho_: 📢Excited to share our outstanding work on @JACS_Au 😁!!. We digitized "chemical intuition💡" — and brought hypothetical str….
pubs.acs.org
Zeolitic imidazolate frameworks (ZIFs), metal–organic analogues of zeolites, hold great potential for carbon-neutral applications due to their exceptional stability and porosity. However, ZIF...
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RT @Joohan_nnam: Honored to share our latest paper, utilizing entropy as a design parameter!. 📘 Grateful to publish….
onlinelibrary.wiley.com
As configurational entropy increases, bulky functionalities progressively block the apertures in sod-ZIF-1 series, enabling programmable control over the pore structure. This controlled reduction in...
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RT @angew_chem: High-Entropy Zeolitic Imidazolate Frameworks for Dynamic Hydrogen Isotope Separation (Wonyoung Choe and co-workers) @Joohan….
onlinelibrary.wiley.com
As configurational entropy increases, bulky functionalities progressively block the apertures in sod-ZIF-1 series, enabling programmable control over the pore structure. This controlled reduction in...
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Congratulations to @JYKim_UNIST on outstanding achievement! 🎉👏.
Happy to be part of #AsCA2024 and honored to receive the Rising Star Award😊💫. Many thanks to my advisor @chem571 for the guidance, and to #KOSUA for the financial support. Grateful for this opportunity!
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We suggest entropy as a quantifiable design parameter for the degree of mixing in mixed-linker ZIFs, published in @angew_chem 🎉. 📘 High-Entropy ZIFs for Dynamic Hydrogen Isotope Separation.@Joohan_nnam @ChanghyeonCho @hyunchul_oh @chem571 @ChoeGroup @UNIST_Chemistry.
Honored to share our latest paper, utilizing entropy as a design parameter!. 📘 Grateful to publish three first-author papers this year in @angew_chem 🙌. Thanks to all team members, @ChanghyeonCho @hyunchul_oh @chem571 @ChoeGroup.
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RT @angew_chem: Pore Structure Modulation in Kirigamic Zeolitic Imidazolate Framework (Wonyoung Choe and co-workers) @Joohan_nnam @jej2507….
onlinelibrary.wiley.com
Three-dimensional kirigami mechanics of a zeolitic imidazolate framework (ZIF) in the solid state are demonstrated through mechanical and molecular stimuli. By controlling these external stimuli,...
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RT @Joohan_nnam: Our work on the foldable molecular path based on kirigamic ZIF has finally been accepted in @angew_chem. .
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Check out our new preprint in @ChemRxiv😄. "Scalable Quasiperiodicity of Two-Dimensional Moiré Metal-Organic Frameworks".. @JYKim_UNIST @ChanghyeonCho @Joohan_nnam @H_Cho_UNIST @ParkLab_POSTECH @jihankim929 @chem571.
Excited to share our latest #preprint on @ChemRxiv. Had so much fun working on the scalable quasiperiodic Moiré MOFs😄🔬. Scalable Quasiperiodicity of 2D Moiré MOFs. Thanks to @ChanghyeonCho @Joohan_nnam @H_Cho_UNIST @ParkLab_POSTECH @jihankim929 @chem571
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Check out our new article in #AdvanvedFunctionalMaterials. "Programmable Merged-Net Porphyrinic Metal-Organic Frameworks for Water Sorption".
🎉Excited to announce our latest publication in #AdvancedFunctionalMaterials, creating a merged-net porphyrinic MOF for water sorption.💧. Big thanks to @chem571 @hyunchul_oh @jej2507 @SoochanLee1 @ChoeGroup . 💡Read the Open Access article here:.
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Finally, we can accelerate MOF discovery using Up-Down Approach, published in @NatureSynthesis. Congratulations to the authors!! 🥳.
Thrilled to share our work @NatureSynthesis, exploring the vast chemical space of MOFs using Up-Down Approach!. 🔍Discover novel structures with newly synthesized MOFs. Huge thanks to @dsnam101 @hjchoUNIST @eunchan_Cho_ @ChanghyeonCho @jihankim929 @chem571.
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RT @NatureSynthesis: Now online:. @JYKIM_UNIST, @dsnam101, @hjchoUNIST, @chem571 and co-workers @ChoeGroup. Up–down approach for expandin….
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RT @angew_chem: Zeolitic Imidazolate Frameworks as Solid-State Nanomachines (Wonyoung Choe and co-workers) @Joohan_nnam @jej2507 @SoochanLe….
onlinelibrary.wiley.com
Machine-like capabilities of zeolitic imidazolate frameworks (ZIFs) are exhibited through a thermal response. They arise from the unique rigidity of composite building units (CBUs). The resulting...
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Check out our new article in @JACS_Au!. Parsimonious Topology Based on Frank-Kasper Polyhedra in Metal–Organic Frameworks.
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RT @MOF_papers: Zeolitic Imidazolate Frameworks as Solid‐State Nanomachines
onlinelibrary.wiley.com
Machine-like capabilities of zeolitic imidazolate frameworks (ZIFs) are exhibited through a thermal response. They arise from the unique rigidity of composite building units (CBUs). The resulting...
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RT @Joohan_nnam: Our previous preprint on ZIF kirigami has been updated with this new TOC graphic! @ChemRxiv @ChoeGroup . "Pore Structure M….
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