Session Details

[11a-B31-1~9]6.6 Probe Microscopy

Fri. Sep 11, 2026 9:00 AM - 11:15 AM JST
Fri. Sep 11, 2026 12:00 AM - 2:15 AM UTC
B31 (Faculty of Engineering B Block)

[11a-B31-1]Analysis of normal and pigmented corneocytes using humidity-controlled AFM

〇Sota Takahashi1, Keisuke Miyazawa1,2, Kenta Sawada1,2, Amina Miyauchi1, Keita Adachi3, Haruna Hayase3, Hiromasa Ikeda3, Junko Kamimoto-Kuroki3, Takeshi Fukuma1,2 (1.Kanazawa Univ., 2.WPI-NanoLSI, 3.KOSE corporation)

[11a-B31-2]Development of method for analyzing 3D distribution of intracellular mechanical properties from nanoendoscopy-AFM data

〇Shunsuke Mochizuki1, Ren Takemura1, Natsuki Tanimura1, Keisuke Miyazawa1, Kazuki Miyata1, Takeshi Fukuma1 (1.Kanazawa Univ.)

[11a-B31-3]Intracellular nanoscale observation of E-cadherin mediated cell-cell junctions by nanoendoscopy-AFM

〇Ren Takemura1, Yohei Kono2, Shuto Nishio1, Takeshi Shimi2, Satoshi Toda3, Takeshi Fukuma1,2 (1.Kanazawa Univ., 2.WPI-NanoLSI, 3.Osaka Univ.)

[11a-B31-4]Implementation of Atom Tracking Method in AFM in Liquids for Investigation of Specific Binding Avidity of Isolated Biomolecules

〇Kana Nakano1, Kei Kobayashi1 (1.Kyoto Univ.)

[11a-B31-5]Substrate-Modulated Nanoendoscopy-AFM of Nuclear Mechanotransduction in Contractile Cells

〇ALEXIS BOROWIAK1,2, TAKEHIKO ICHIKAWA1,2, YOHEI KONO1,2, TAKESHI SHIMI1,5, MASAMICHI ITO3, RYO NITTA4, TAKESHI FUKUMA1,2 (1.Kanazawa Univ., 2.NanoLSI, 3.The Univ. of Tokyo, 4.Kobe Univ., 5.Cancer Res. Inst.)

[11a-B31-6]A Cell-Recognition-Based High-Throughput Probe Microscopy System for Live-Cell Measurements

〇(M2)Tatsuya Toda1, Shinji Watanabe2 (1.Math. &Phys., Kanazawa Univ., 2.WPI-NanoLSI, Kanazawa Univ.)

[11a-B31-7]Simultaneous determination of effective cell elasticity and internal pressure in adherent animal cells using AFM and elastic shell theory

〇(D)Emi Kurnia Sari1, Yuka Tsuri1,2, Naomi Tanga1,3, Yoichiroh Hosokawa1,2,3 (1.Div.Mat.Sci., NAIST, 2.MLC, NAIST, 3.CDG, NAIST)

[11a-B31-8]Enhancement of photoporation efficiency by controlling cell membrane stiffness

〇Ai Ono1, Emi Kurnia Sari1, Naomi Tanga1,2, Yuka Tsuri1,3, Yoichiroh Hosokawa1,2,3 (1.Dvi. Mat. Sci. NAIST, 2.CDG. NAIST, 3.MLC. NAIST)

[11a-B31-9]Development of a High-Speed Mechanical Property Mapping Method

〇Ryosuke Sano1, Feng Yueh Chan1, Chritian Ganser2, Takayuki Uchihashi1,2 (1.Nagoya Univ., 2.ExCELLS)