(Press-News.org) Origami, traditionally associated with paper folding, has transcended its craft origins to influence a diverse range of fields, including art, science, engineering, and architecture. Recently, origami principles have extended to technology, with applications spanning solar cells to biomedical devices. While origami-inspired materials have been explored at various scales, the challenge of creating molecular materials based on origami tessellations has remained. Addressing this challenge, a team of researchers, led by Professor Wonyoung Choe in the Department of Chemistry at Ulsan National Institute of Science and Technology (UNIST), South Korea, has unveiled a remarkable breakthrough in the form of a two-dimensional (2D) Metal Organic Framework (MOF) that showcases unprecedented origami-like movement at the molecular level.
Metal-Organic Frameworks (MOFs) have long been recognized for their structural flexibility, making them an ideal platform for origami tessellation-based materials. However, their application in this context is still in its early stages. Through the development of a 2D MOF based on the origami tessellation, the research team has achieved a significant milestone. The researchers utilized temperature-dependent synchrotron single-crystal X-ray diffraction to demonstrate the origami-like folding behavior of the 2D MOF in response to temperature changes. This behavior showcases negative thermal expansion and reveals a unique origami tessellation pattern, previously unseen at the molecular level.
The key to this breakthrough lies in the choice of MOFs, which incorporate flexible structural building blocks. The inherent flexibility enables the origami-like movement, observed in the 2D MOF. The study highlights the deformable net topology of the materials. Additionally, the role of solvents in maintaining the packing between 2D framework in MOFs is emphasized, as it directly affects the degree of folding.
“This groundbreaking research opens new avenues for origami-inspired materials at the molecular level, introducing the concept of origamic MOFs. The findings not only contribute to the understanding of dynamic behavior in MOFs, but also offer potential applications in mechanical metamaterials.” noted Professor Wonyoung Choe. He further highlighted the potential of molecular level control over origami movement, as a platform for designing advanced materials with unique mechanical properties. The study also suggests exciting possibilities for tailoring origamic MOFs for specific applications, including advancements in molecular quantum computing.
The findings of this research have been published in Nature Communications, a sister journal to Nature, on December 01, 2023. This study has been supported by the National Research Foundation (NRF) of Korea via the Mid-Career Researcher Program, Hydrogen Energy Innovation Technology Development Project, Science Research Center (SRC), and Global Ph.D. Fellowship (GPF), as well as Korea Environment Industry & Technology Institute (KEITI) through Public Technology Program based on Environmental Policy Program, funded by Korea Ministry of Environment (MOE).
Wonyoung Choe
Professor, Department of Chemistry
Ulsan National Institute of Science and Technology (UNIST)
JooHyeon Heo
Public Relations Officer, UNIST
T: +82-52-217-1223
E: joohyeonheo@unist.ac.kr
Story Source
Materials provided by Ulsan National Institute of Science and Technology (UNIST)
Note for Editors
This press release is made available courtesy of UNIST Public Relations Team.
Journal Reference
Eunji Jin, In Seong Lee, D. ChangMo Yang, Dohyung Moon, Joohan Nam, Hyeonsoo Cho, Eunyoung Kang, Junghye Lee, Hyuk-Jun Noh, Seung Kyu Min, and Wonyoung Choe, “Origamic Metal-Organic Framework toward Mechanical Metamaterial,” Nature Communctions, (2023).
END
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Embargoed for release until 5:00 p.m. ET on Monday 18 December 2023
Annals of Internal Medicine Tip Sheet
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Below please find summaries of new articles that will be published in the next issue of Annals of Internal Medicine. The summaries are not intended to substitute for the full articles as a source of information. This information is under strict embargo and by taking it into possession, media representatives are committing to the terms of the embargo not only on their own behalf, but also on behalf of the organization they represent.
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