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SEOUL NATIONAL UNIVERSITY

AI-driven Simulation and Design Lab

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OUR RESEARCH

Research Highlight

Harnessing a paper-folding mechanism for reconfigurable DNA origami

The paper-folding mechanism has been widely adopted in building of reconfigurable macroscale systems because of its unique capabilities and advantages in programming variable shapes and stiffness into a structure. However, it has barely been exploited in the construction of molecular-level systems owing to the lack of a suitable design principle, even though various dynamic structures based on DNA self-assembly have been developed. Here we propose a method to harness the paper-folding mechanism to create reconfigurable DNA origam…

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Tech for Good: Origami folding at a nanoscale

CNN's Kristie Lu Stout travels to Seoul National University in South Korea where a student, Myoungseok Kim, discovered a new way of folding already folded DNA; in essence, origami of DNA origami. DNA Origami as a field has been around since 2006. It applies short strands (known as staples) programmed with specific bases along a long single strand of DNA, folding them according to the base bonds to make all types of shapes. Previously, DNA origami could only fold once, but by modeling DNA structures after paper creases, Kim and his pro…

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Supercomputer-Assisted Simulation Research on DNA Origami Structures

To understand the interactions and binding phenomena within DNA material, extensive computational simulations utilizing supercomputers are necessary. Utilizing the 5th generation supercomputer, Nurion, we present research that employs massive calculations to model the formation, binding, and folding of DNA megastructures, as well as the technology of DNA origami.

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OUR PUBLICATION

Publication

  • Mechanical meta-sheets with independently tunable Poisson’s ratio and coefficient of thermal expansion

    *Duhwan Kang, *Jeong Min Hur, and Do-Nyun Kim

    , Materials & Design, 244: 113187, 2024

  • Predicting the effect of binding molecules on the shape and mechanical properties of structured DNA assemblies

    Jae Young Lee, Yanggyun Kim, and Do-Nyun Kim

    , Nature Communications, 15: 6446, 2024

  • DNA hydrogels with programmable condensation, expansion, and degradation for molecular carriers

    Kyounghwa Jeon, Chanseok Lee, Jae Young Lee, and Do-Nyun Kim 

    , ACS Applied Materials & Interfaces, 16: 24162–24171, 2024

  • Data-driven nonparametric identification of material behavior based on physics-informed neural network with full-field data

    Iksu Jeong, Maenghyo Cho, Hayoung Chung, and Do-Nyun Kim 

    , Computer Methods in Applied Mechanics and Engineering, 418: 116569, 2024

  • Adversarial deep energy method for solving saddle point problems involving dielectric elastomers

    *Seung-Woo Lee, *Chien Truong-Quoc, Youngmin Ro, and Do-Nyun Kim 

    , Computer Methods in Applied Mechanics and Engineering, 421: 116825, 2024

  • Accelerating topology optimization using deep learning-based image super-resolution

    *Jaekyung Lim, *Kyusoon Jung, Youngsuk Jung, and Do-Nyun Kim 

    , Engineering Applications of Artificial Intelligence, 133: 108370, 2024

  • Prediction of DNA origami shape using graph neural network

    *Chien Truong-Quoc, *Jae Young Lee, Kyung Soo Kim, and Do-Nyun Kim 

    , Nature Materials, 23: 984-992, 2024

  • A computational model for structural dynamics and reconfiguration of DNA assemblies

    Jae Young Lee, Heeyuen Koh, and Do-Nyun Kim 

    , Nature Communications, 14: 7079, 2023

  • Hotspot prediction: SEM image generation with potential lithography hotspots

    *Jaehoon Kim, *Jaekyung Lim, Jinho Lee, Tae-Yeon Kim, Yunhyoung Nam, Kihyun Kim, and Do-Nyun Kim 

    , IEEE Transactions on Semiconductor Manufacturing, 37: 103-114, 2024

  • Harnessing a paper-folding mechanism for reconfigurable DNA origami

    ​Myoungseok Kim, Chanseok Lee, Kyounghwa Jeon, Jae Young Lee, Young-Joo Kim, Jae Gyung Lee, Hyunsu Kim, Maenghyo Cho and Do-Nyun Kim

    , Nature, Selected as Cover Article, 619: 78-86, 2023

  • Controlling the stiffness of bistable kirigami surfaces via spatially varying hinges

    Hyeonho Cho and Do-Nyun Kim 

    , Materials & Design, 231: 112053, 2023

  • Stability of mixed overlapping element in incompressible analysis

    Giseok Yun, Jeehwan Lee, and Do-Nyun Kim 

    , Computer Methods in Applied Mechanics and Engineering, 412: 116104, 2023

AISDL NEWS

Latest News

  • NEWS

    Jae Young was appointed as an assitant professor in the Department of Mechanical Engineering at Ajou University. Congratulations, Prof. Lee!

    2024.09.01

  • NEWS

    Jinho and Changhyun joined AISDL for their graduate study. Welcome!

    2024.09.01

  • NEWS

    Chanseok was appointed as an assitant professor in the Department of Bionano Engineering at Hanyang University (ERICA). Congratulations, Prof. Lee!

    2024.03.01

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