Publications
AI-driven Simulation and Design Lab
Name*: Contributed equally
Name: Corresponding author
Rhombic-shaped nanostructures and mechanical properties of two-dimensional DNA origami constructed with different crossover/nick designs
Zhipeng Ma, Yunfei Huang, Seongsu Park, Kentaro Kawai, Do-Nyun Kim, Yoshikazu Hirai, Toshiyuki Tsuchiya, Hirofumi Yamada and Osamu Tabata
Small, 14: 1702028, (2018)
Polymorphic design of DNA origami structures through mechanical control of modular components
Chanseok Lee, Jae Young Lee and Do-Nyun Kim
Nature Communications, 8: 2067, (2017)
An efficient warping model for elastoplastic torsional analysis of composite beams
Kyungho Yoon, Phill-Seung Lee and Do-Nyun Kim
Composite Structures, 178: 37-49, (2017)
A general model reduction with primal assembly in structural dynamics
Jin-Gyun Kim, Young-Jun Park, Geun Ho Lee and Do-Nyun Kim
Computer Methods in Applied Mechanics and Engineering, 324: 1-28, (2017)
A critical assessment of finite element modeling approach for protein dynamics
Giseok Yun, Jaehoon Kim and Do-Nyun Kim
Journal of Computer-Aided Molecular Design, 31: 609-624, (2017)
Coarse-grained molecular dynamics model of double-stranded DNA for DNA nanostructure design
Hiromasa Yagyu, Jae Young Lee, Do-Nyun Kim and Osamu Tabata
Journal of Physical Chemistry B, 121: 5033-5039, (2017)
Stretchable, transparent and stretch-unresponsive capacitive touch sensor array with selectively patterned silver nanowires/reduced graphene oxide electrodes
Taeyoung Choi, Byeong-Ung Hwang, Bo-Yeong Kim, Tran Quang Trung, Yun Hyoung Nam, Do-Nyun Kim, Kilho Eom and Nae-Eung Lee
ACS Applied Materials & Interfaces, 9: 18022-18030, (2017)
Nonlinear torsional analysis of 3D composite beams using the extended St. Venant solutions
Kyungho Yoon, Do-Nyun Kim and Phill-Seung Lee
Structural Engineering and Mechanics, 62: 33-42, (2017)
A near-zero Poisson’s ratio of Si with ordered nanopores
Yongmin Yoo, Young-Joo Kim, Do-Nyun Kim and Joo-Hyoung Lee
Physical Chemistry Chemical Physics, 18: 21949-21953, (2016)
Sensitivity analysis for the mechanical properties of DNA bundles
Journal of Nanomaterials, 6287937, (2016)
Structural basis for elastic mechanical properties of the DNA double helix
Young-Joo Kim and Do-Nyun Kim
PLOS ONE, 11: e0153228, (2016)
Finite element modeling of concentric-tube continuum robots
Changyeob Baek, Kyungho Yoon and Do-Nyun Kim
Structural Engineering and Mechanics, 57: 809-821, (2016)
Anisotropic patterning to reduce instability of concentric-tube robots
Dae-Young Lee, Jongwoo Kim, Ji-Suk Kim, Changyeob Baek, Gunwoo Noh, Do-Nyun Kim, Keri Kim, Sungchul Kang and Kyu-Jin Cho
IEEE Transactions on Robotics, 31: 1311-1323, (2015)
Geometrically nonlinear finite element analysis of functionally graded 3D beams considering warping effects
Composite Structures, 132: 1231-1247, (2015)
Direct measurement of transversely isotropic DNA nanotube by force-distance curve-based atomic force microscopy
Zhipeng Ma, Young-Joo Kim, Seongsu Park, Yoshikazu Hirai, Toshiyuki Tsuchiya, Do-Nyun Kim and Osamu Tabata
Micro & Nano Letters, 10: 513-517, (2015)
