Research keywords (1):
polymer properties, atomic force microscopy, nanomechanics, nanostress visualization, single polymer chain
Research theme for competitive and other funds (2):
2023 - 2026 Measurement and Visualization of Nano-Stress Distribution in Polymer Materials in Real Space by Atomic Force Microscopy
2019 - 2023 Wide-Band Viscoelasticity Measurement of Single Polymer Chain by Atomic Force Microscope
Papers (64):
Dingrui Wang, Xiaobin Liang, Ken Nakajima. Investigating single-chain structure during the crystallization process by atomic force microscopy. Polymer. 2025
Ling Gao, Haonan Liu, Xiaobin Liang, Makiko Ito, Ken Nakajima. Tracking the evolution of the morphology and stress distribution of SIS thermoplastic elastomers under tension using atomic force microscopy. Science and Technology of Advanced Materials. 2024
Mari Hanai, Makiko Ito, Xiaobin Liang, Ken Nakajima. The study on the micromechanical mechanism of PP/EPDM blends and PP/SEBS blends using atomic force microscopy-based nanomechanics. Japanese Journal of Applied Physics. 2024. 63. 7. 07SP02-07SP02
Takuya Ishida, Hitoshi Iwabuki, Xiaobin Liang, Ken Nakajima. Visualization of crack generation of vulcanized butadiene rubber under uniaxial elongation by atomic force microscopy nanomechanics. Polymer. 2024. 307. 127263-127263
Xiaobin Liang, Haonan Liu, So Fujinami, Makiko Ito, Ken Nakajima. Simultaneous Visualization of Microscopic Conductivity and Deformation in Conductive Elastomers. ACS Nano. 2024. 18. 4. 3438-3446