ICSPM32 Program
Contents
- Time Table
- Daily program
- Poster Session 4P (Nov 18 Mon 17:00-18:30)
- Poster Session 9P (Nov 19 Tue 17:15-18:45)
- Author Index
Time Table
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Nov 18 Mon
Reception (09:00-10:00)
Opening (Hall A) (10:00-10:15)
Session 1A (Onishi) (Nov 18 10:15-11:30)
Unraveling the History of Atomic Force Microscopy: The Genesis and Evolution of AFM from Laboratory Instruments to Industrial Nanometrology
Park Systems Corp., Korea
Chemical evolution of organic matter in the asteroid Ryugu unveiled by multiple microscopic techniques and AFM-IR
Hiroshima University, Japan
Lunch (Luncheon Seminar) (11:30-13:00)
| Date & Time | Hall A | Hall B |
|---|---|---|
| Nov. 18 11:30-13:00 |
*Free lunch box is available at the seminar hall. Please enjoy the seminar with the lunch box.
Session 2A (Araki, Jhe) (Nov 18 13:00-14:30)
Combined QTF-based atomic-force and Raman spectroscopy of water at the nanoscale
1Seoul National University, Korea, 2Inha University, Korea, 3Chungbuk National University, Korea, 4Harvard University, Korea, 5Stanford University, Korea
Nano liquid film on silica glass under high humidity condition
1Kanazawa University, Japan, 2Institute for Molecular Science, Japan
Comparison of Surface Structures of Surfactant Crystals with Different Solubility by FM-AFM and MD Simulations
1Research and Development Headquarters, Japan, 2Division of Frontier Engineering, Kanazawa University, Japan, 3Division of Nano Life Science, Kanazawa University, Japan, 4Nano Life Science Institute (WPI-NanoLSI) , Kanazawa University, Japan, 5PRESTO, Japan Science and Technology Agency, Japan, 6Department of Applied Physics, Aalto University, Finland
Solvation behavior of Lithium-ion batteries electrolytes on clinochlore surfaces studied by frequency modulation atomic force microscopy
Department of Electronic Science and Engineering, Kyoto University, Japan
Characterizing Wetting Differences with a Liquid Probe
1Max Planck Institute for Polymer Research, Mainz 55128, Germany
Session 2B (Adams, Fukuzawa) (Nov 18 13:00-14:30)
Dual Bias Modulation Electrostatic Force Microscopy for Variable Frequency Capacitance Measurements
1Department of Electrical Engineering and Information Systems, The University of Tokyo, Japan, 2Institute of Industrial Science, The University of Tokyo, Japan, 3Institute for Nano Quantum Information Electronics, The University of Tokyo, Japan
Harnessing the multi-disciplinary nature of the nanoscale
University of Bristol, UK
Simulation for the in-plane surface dipole moment distribution of the Si surface using DFT calculations
1The University of Electro-Communications, Japan, 2Tohoku University, Japan
High-throughput nanomechanical characterization by photothermally actuated AFM
1Nanosurf AG, Switzerland, 2Karlsruhe Institute of Technology, Germany
Break (14:30-15:00)
Session 3A (Ichii) (Nov 18 15:00-16:25)
Probing interfacial water structures at the atomic scale
1International Center for Quantum Materials, Peking University, China, 2Electrochemical Energy Laboratory, Massachusetts Institute of Technology, USA, 3Institute of Theoretical and Computational Chemistry, College of Chemistry and Molecular Engineering, China
Exhibitors' short presentations (Takeuchi)
Introduction to Bruker AFM and NanoIR Spectrometers
Asylum Ultra High Performance AFM, “Vero” Changes AFM Physical Properties Measurement
Park FX Series: Leading AFM Innovation with Seamless Automation and Superior Performance for all samples.
Drive AFM: Nanosurf's new flagship AFM platform
SPM Probes/ Accessories
New Service Potentials in Low-Temperature Scanning Tunneling Microscopy (LT-STM)
AFM SPM probes
Introduction of Shimadzu's Surface Analyzers
High-speed AFM “NanoExplorer” Series
AFM-Raman
SPM Research Solutions since 1987
Break (16:25-17:00)
Session 4P
Poster Session (17:00-18:30)
Nov 19 Tue
Session 5A (Pittenger) (Nov 19 09:45-10:15)
Hacking Consumer Electronics for Scanning Probe Microscopy Instrumentation and Applications
1Department of Health Technology, Technical University of Denmark, Denmark, 2Department of Mechanical Engineering, National Taiwan University,, Taiwan, 33Department of Physics, Nagoya University, Japan
Session 5B (Hashizume, Haghighirad) (Nov 19 09:00-10:15)
STM for Topological superconductors by proximity effect
Shanghai Jiao Tong University, China
Engineering Artificial 2D Molecular Magnets on Surfaces
1Chiba Univ., Japan, 2Osaka Univ., Japan
Engineering atomically-precise topological heterostructures in one-dimensional conjugated polymers
1Regional Centre of Advanced Technologies and Materials, Czech Advanced Technology and Research Institute, Palacký University in Olomouc, Czech Republic, 2Institute of Physics, Czech Academy of Sciences, Prague, Czech Republic, 3Faculty of Nuclear Science and Physical Engineering, Czech Technical University in Prague, Czech Republic, 4Condensed Matter Physics Center (IFIMAC), Universidad Autónoma de Madrid, Spain, 5IMDEA Nanoscience, Madrid, Spain
Break (10:15-10:45)
Session 6A (Hwu) (Nov 19 10:45-12:00)
Insights into Polymer Composite Behavior Through Mechanical and Chemical Mapping at the Nanoscale
Bruker Nano Surfaces, USA
Quantifying Mechanical Dynamics of Polymers at Nanoscale Using Nanorheological Atomic Force Microscopy
Tokyo Institute of Technology, Japan
Quantitative elasticity of single flexible polymer chain using interferometer based Atomic Force Microscope
Indian Institute of Science Education and Research, India
Atomic Force Microsocpy Analysis of Rate Dependent Adhesive Viscoelastic Contact
Institute of Science Tokyo, Japan
Session 6B (Yamada) (Nov 19 10:45-12:00)
Electric-Field-Induced Semimetallic Phase in Ta2NiSe5 at the Atomic Limit
1Dep. of Physics, Pohang Univ. of Sci. and Tech. (POSTECH), Korea, 2Center for Nanophase Materials Sciences, Oak Ridge National Laboratory, USA, 3Department of Materials Science and Engineering, POSTECH, Korea, 4Center for Artificial Low Dimensional Electronic Systems, IBS, Korea
Characterization of solar cell materials using time-resolved electrostatic force microscopy under base-bias-level control
1Institute of Industrial Science, University of Tokyo, Japan, 2Institute for Nano Quantum Information Electronics, University of Tokyo, Japan
Imaging Noise in Dynamic Atomic Force Microscopy
1Universidad de Murcia, Spain, 2Universidad Politecnica de Cartagena, Spain
Crystal Growth and Properties of 2D van der Waals Quantum Materials
1Institute for Quantum Materials and Technologies, Karlsruhe Institute of Technology, Karlsruhe, Germany
Conference Photo (Hall A) (12:00-12:10)
Get together in the Hall A with your best smile!Lunch (Luncheon Seminar) (12:10-13:40)
| Date & Time | Hall A | Hall B |
|---|---|---|
| Nov. 19 12:10-13:40 |  |
*Free lunch box is available at the seminar hall. Please enjoy the seminar with the lunch box.
Session 7A (Minato, Schaub) (Nov 19 13:40-15:10)
STM-Induced Destruction of C60: Enhanced Charge Transport through SAMOs
School of Chemistry, University of St Andrews., United Kingdom
Investigating the Surface Chemistry of Formic Acid
College of Chemistry, Beijing Normal University, China
Investigating microscopic origin of enhanced perpendicular magnetic anisotropy in C70-Co organic-inorganic hybrid interface
1Graduate School of Engineering, Nagoya University, Japan, 2Institute of Materials and Systems for Sustainability (IMaSS), Japan, 3National Institutes for Quantum Science and Technology (QST), Japan, 4Institute for Molecular Science (IMS), Japan
Molecular Ordering on Surfaces at the Limit of Vanishing Coupling Strengths: TMPH/Cu(111)
University of St Andrews, UK
Revealing the Reaction Mechanism of CO2 on K/Cu(110) Surface
Beijing Normal University, China
Session 7B (Proksch, Leclere) (Nov 19 13:40-15:10)
Electrical Properties of Epitaxial Graphene/n-SiC Schottky Barrier Diodes Measured by Conducting Nanoprobe
Tokushima University, Japan
STM Manipulating Chemisorbed Atomic Oxygen on Epitaxial Graphene
1Department of Physics, Pohang University of Science and Technology (POSTECH), Republic of Korea, 2Department of Chemistry, POSTECH, Republic of Korea, 3Center for Artificial Low Dimensional Electronic Systems, Institute for Basic Science (IBS), Republic of Korea
Observation of nano-ripple structures of an epitaxial graphene surface in a water environment
Tokushima University, Japan
Quantum-Limited Atomic Force Microscopy
1Department of Physics, University of Basel, Klingelbergstrasse 82, CH-4056 Basel, Switzerland, 2Department of Applied Physics, KTH Royal Institute of Technology, Hannes Alfvéns väg 12, SE-114 21 Stockholm, Sweden
Accurate Mapping of Three-Dimensional Nanomechanics and Electromechanics using Interferometric Atomic Force Microscopy
Asylum Research Oxford Instruments, United States
Break (15:10-15:40)
Session 8A (Sumino) (Nov 19 15:40-16:25)
Probing the interaction dynamics and structural flexibility of lectin/spike complexes using SPM-based force spectroscopy
1Institute of Biophysics, Johannes Kepler University Linz, Austria, 2State Key Laboratory of Emerging Infectious Diseases, the University of Hong Kong, Hong Kong Special Administrative Region, China, 3University of Natural Resources and Life Sciences, Vienna, Department of Biotechnology, Institute of Molecular Biotechnology, Vienna, Austria, 4Division of Infectious Diseases, Department of Internal Medicine, and the Programs in Immunology, Cellular and Molecular Biology, and Cancer Biology, University of Michigan, Ann Arbor, USA, 5University of Natural Resources and Life Sciences, Vienna, Department of Material Science and Process Engineering, Institute for Molecular Modelling and Simulation, Vienna, Austria
Nanomotion in Biology and Medicine
1Laboratoire de Microscopie Electronique Biologique, EPFL and UNIL , CH-1015 Lausanne, Switzerland, 2Centre Universitaire Romand de Médecine Légale,UFAM, Université de Lausanne,1015 Lausanne, Switzerland
Distinct Binding Mechanisms of SARS-CoV-2 Spike Variants
Institute of Biophysics, Johannes Kepler University Linz; Linz, Austria
Session 8B (Okajima, Nakajima) (Nov 19 15:40-17:25)
Accessing Higher Resolutions with High Speed AFM
1School of Physics and Astronomy, University of Leeds, UK, 2School of Dentistry, University of Leeds, UK, 3School of Biomedical Science, University of Leeds, UK
Nanoscale Wetting Characterization using Non-Contact Atomic Force Microscopy in Ambient Conditions
University of Murcia, Spain
Molecular-Scale Structure and Friction Properties of Physisorbed Friction Modifiers in Liquid Lubricants
1Kobe University, Japan, 2Shimadzu Techno-Research Incorporated, Japan, 3Institute for Molecular Science, Japan, 4Kyoto University, Japan, 5Kyoto Institute of Technology, Japan
High-Resolution Imaging of Polyoxyethylene(50) Stearyl Ether Surfactant Adsorption on Carbon Nanotubes Using FM-AFM
1Laboratory for Organic Electronics, Nara Institute of Science and Technology, Japan, 2Institute of Materials Science, Vietnam Academy of Science and Technology, Vietnam
Advantages of Vertical Probe Microscopy
1H.H. Wills Physics Laboratory, University of Bristol, Unitted Kingdom, 2School of Chemistry, University of Bristol, United Kingdom, 3Bristol Nano Dynamics Ltd, United Kingdon
Session 9P
Poster Session (17:25-18:55)
Break (18:55-19:00)
Banquet (Award Ceremony) (19:00-21:00)
The Banquet is held in the Belvedere room on the 13rd floor.Nov 20 Wed
Session 10A (Miles, Tian) (Nov 20 09:00-10:30)
Machine learning in Scanning Probe Microscopy
1Aalto University, Finland, 2WPI Nano Life Science Institute, Japan
Towards Quantitative Mapping of Mechanical Properties of Soft Materials: When AI Meets Materials !
University of Mons (UMONS), Belgium
J3SPM AI: Streamlined AI Solutions for Scanning Probe Microscopy
Andong National University, Korea
Session 10B (Iwata) (Nov 20 09:45-10:30)
Nanopipette Biosensors for Cell and Single Molecule Analysis: Scanning Ion Conductance Microscopy
1Department of Medicine, Imperial College London, United Kingdom, 2Nano Life Science Institute (WPI-NanoLSI), Kanazawa University, Japan
Single-Cell Rheology in Developing Embryos Investigated by AFM
1Graduate School of Information Science and Technology, Hokkaido University, Japan, 2Faculty of Information Science and Technology, Hokkaido University, Japan
Break (10:30-11:00)
Session 11A (Nishida, Foster) (Nov 20 11:00-12:45)
Imaging mechanism of three-dimensional atomic force microscopy of flexible molecules in non-equilibrium processes
Nano Life Science Institute, Kanazawa University, Japan
Investigating Twist Angle Variations in High-Quality Hexagonal Graphene Using Raman Spectroscopy
Toyota Technological Institute, Japan
Investigation of Optical and Eelectronic Properties of Trapped Bubbles in vdW Heterostructures Based on Combined ISE and AFM Techniques
PARKSYSTEMS, Republic of Korea
Generation of ordered single-atom-wide 1D gold nanowires with tip-enhanced Terahertz field
1Center for Condensed Matter Sciences and Department of Physics, National Taiwan University, Taiwan, 2Department of Physics and Astronomy, Michigan State University, USA
Fabrication of highly sensitive TERS probes using focused ion beam
1Toyota Technological Institute, Japan, 2Hitachi, Ltd., Japan
Unraveling Dynamical Heterogeneity in Low-Dimensional Semiconductors with Ultrafast Mid-Infrared Nano-Imaging
1Institute for Molecular Science, Japan, 2The Graduate Institute for Advanced Studies, Japan
Session 11B (Leonenko, Korchev) (Nov 20 11:00-12:45)
Hadamard Product-treated Images of Lipid Rafts on Live MCF-7 Cells by Fast Scan AFM
1Department of Chemistry, National Taiwan University, Taiwan 10617, Taiwan, 2Department of Biochemical Science and Technology, National Taiwan University, Taiwan 10617, Taiwan, 3Center for Emerging Material and Advanced Device, National Taiwan University, Taiwan 10617, Taiwan, 4Department of Applied Chemistry, National Chi Nan University, Puli, Nantou, Taiwan 54561, Taiwan
The effect of chelating calcium ions on the structure of the chromosomes as observed by atomic force microscopy
Pathology and Anatomical Sciences, Graduate School of Medical and Dental Sciences, Tokyo Medical and Dental University, Japan
Influence of Chirality on the Structural Characteristics of Peptide Assemblies Revealed by Atomic Force Microscopy
1Laboratory for Bio- and Nano-Instrumentation, EPFL, Switzerland, 2Laboratory of Soft Matter Physics, Institute of Physics, Chinese Academy of Sciences, China
Structural Dynamics of Ion Channels Studied by High-Speed Atomic Force Microscopy
1Nano Life Science Institute (WPI-NanoLSI), Kanazawa University, Japan, 2Institute for Frontier Science Initiative, Kanazawa University, Japan
Scanning Probe Microscopy to Study Nanoscale Lipid Domains and Their Role in Membrain’s Interactions with Biomolecules
Department of Physics and Astronomy, University of Waterloo, Canada
Closing (Hall A) (12:45-13:00)
Session 4P : Poster Session
Nov 18 Mon 17:00-18:30
Session 4P
Study on Viscoelastic Contact Mechanics by Nanorheological Atomic Force Microscopy
School of Materials and Chemical Technology Department of Chemical Science and Engineering, Tokyo, Japan
Effects of Long-Term Low-Temperature Annealing Prior to Activation Annealing on Near-Conduction-Band-Edge Gap States in Vicinity of Mg-Ion-Implanted GaN Surface
RCIQE, Hokkaido University, Japan
Machine Learning Assisted Biomolecule Identification in AFM Images
1Graduate School of Engineering, Kochi University of Technology, Japan, 2Graduate School of Engineering Science, Osaka Universit, Japan
Mechanical Properties of Tailbud Cells in Developing Embryos Measured by Atomic Force Microscopy
1Graduate School of Information Science and Technology, Hokkaido University, Japan, 2Faculty of Information Science and Technology, Hokkaido University, Japan
Solvation structures at DMF/solid interfaces visualized by 3D-AFM
1Graduate School of Natural Science and Technology, Kanazawa University, Japan, 2Nanomaterials Research Institute (NanoMaRi), Kanazawa University, Japan, 3Nano Life Science Institute (WPI-NanoLSI), Kanazawa University, Japan
Influence of Post-Deposition Annealing for the Growth of Stanene on InSb(111)
School of Materials Science, Japan Advanced Institute of Science and Technology (JAIST), Japan
The Interfacial Interaction between Polymer Single Chain and Inorganic Substrate Investigated by Atomic Force Microscopy
Tokyo Institute of Technology, Japan
Ice Films Characterized by Atomic Force Microscopy under Antifreeze Liquid
1School of Science, Kobe University, Japan, 2Institute for Molecular Science, National Institutes of Natural Sciences, Japan
Two-body interaction in molten metal analyzed by AFM
1Department of Materials Science and Engineering, Kyoto University, Japan, 2Department of Applied Biological Chemistry, Meijo University, Japan
Spatiotemporal Variations of Single-Cell Mechanics in Xenopus laevis Embryos measured by AFM
1Graduate School / Faculty of Information Science and Technology, Hokkaido University., Japan, 2Graduate School / Faculty of Arts and Sciences, The University of Tokyo., Japan
Visualization of Frictional Property on Solvation Structure Using Developed FM-AFM/LFM System
1Graduate School of Tokyo University of Science, Japan, 2Tokyo University of Science, Japan, 3Shimadzu Corporation, Japan
Direct Measurement of Local Work Functions on Metal Surfaces Using Pulse SPM
1Kochi University of Technology, Japan, 2Japan Fine Ceramics Center, Japan, 3Osaka University, Japan
Pinning of borophene on Au (111)
Indian Institute of Science Education and Research, Pune, India
Relationship between Microstructural Deformation and Micro-stress Distribution in Thermoplastic Vulcanizates Using AFM Nanomechanics
Dept. Chem. Sci. Tech., Tokyo Tech, Japan
X-Ray Photoelectron Spectroscopy Monitoring of Fermi Level Position at Mg-Doped p-Type GaN Surface During MOS Interface Formation
RCIQE, Hokkaido University, Japan
Multi-facet FM-AFM imaging of single organic crystals in liquid
1Graduate School of Natural Science and Technology, Kanazawa University, Japan, 2Nano Life Science Institute (WPI-NanoLSI), Kanazawa University, Japan, 3Nanomaterials Research Institute (NanoMaRi), Kanazawa University, Japan
Pulsed-force AFM system for mechanical measurement of large soft materials
1Graduate School of Information Science and Technology, Hokkaido University, Japan, 2Graduate School of Science, Nagoya University, Japan
Influence of Trisodium Citrate Dihydrate on NaCl Surface
Kanazawa University, Japan
Degradation Mechanisms in Synthetic Rubbers at Elevated Temperatures
1Kochi University of Technology, Japan, 2Kyushu Synchrotron Light Research Center, Japan
Frequency-Modulation AFM in Sub-Zero Antifreeze Liquid
1School of Science, Kobe University, Japan, 2Institute for Molecular Science, National Institutes of National Sciences, Japan
Study on the Physical Properties of Poly(N-isopropylacrylamide) Single Chain Using Nanofishing Method
Dept. of Chemical Science and Engineering, Tokyo Institute of Technology, Japan
Session 9P : Poster Session
Nov 19 Tue 17:15-18:45
Session 9P
Characterization of C60 derivatives on Au(111) by Atomic Force Microscopy
1Department of Physics, University of Basel, Klingelbergstrasse 82, 4056 Basel, Switzerland, 2Department of Chemistry and Biochemistry, University of Bern, Freiestrasse 3, 3012 Bern, Switzerland
Monatomic Iodine Dielectric Layer for Multimodal Optical Spectroscopy of Dye Molecules
1RIKEN, Japan, 2Univ. Tokyo, Japan
-- Cancelled --
Preparation of the Semi Li-Doped Li4Ti5O12 Wafer for Two-Phase Imaging
AIST, Japan
Probing electrical property of low-angle twisted bilayer graphene (tBG) by conductive atomic force microscopy (cAFM)
1Parksystem Janpan Inc., Japan, 2Parksystem Inc, Korea
Direct Visualization of Disorder Driven Electronic Liquid Crystal Phases in Dirac Nodal Line Semimetal GdSbTe
1Department of Physics, National Taiwan University, Taiwan, 2Nano Science and Technology Program, Taiwan International Graduate Program, Academia Sinica and National Taiwan University, Taiwan, 3Institute of Physics, Academia Sinica, Taiwan, 4Department of Physics, National Cheng-Kung University, Taiwan, 5Center for Condensed Matter Sciences, National Taiwan University, Taiwan, 6Molecular Science and Technology Program, Taiwan International Graduate Program, Academia Sinica, Taiwan, 7Division of Physics and Applied Physics, School of Physical and Mathematical Sciences, Nanyang Technological University, Singapore, 8Department of Physics and Astronomy, University of Tennessee, USA, 9Institute for Advanced Materials & Manufacturing, University of Tennessee, Knoxville, USA, 10Min H. Kao Department of Electrical Engineering and Computer Science, University of Tennessee, Knoxville, USA, 11Center for Quantum Science and Technology, National Taiwan University, Taiwan
Annealing effect on the growth of Sn atomic layers on Pt(111)
Nagoya University, Japan
Interfacial structural and electronic properties of FM/AFM magnetic multilayer revealed by scanning tunneling microscopy
1ISSP, The University of Tokyo, Japan, 2IMaSS, Nagoya University, Japan, 3Institute for Molecular Science, Japan
STM and STS studies of ultrathin Mn films on Au(001)
Division of Natural Science, Osaka Kyoiku University,, Japan
Optical Detection Module with High Bandwidth and Low Noise for Beam-Deflection Atomic Force Microscopy
1Institute of Physics, Academia Sinica, Taiwan, 2Department of Mechanical Engineering, National Taiwan University, Taiwan
A Technique to Measure Surface Tension of Small Drops Using SPM
1Max Planck Institute for Polymer Research, Germany, 2Technical University of Darmstadt, Germany
Optical pump-probe SPM and transient absorption spectroscopy measurements of exciton dynamics in bulk WSe2
1UNISOKU Co., Ltd., Japan, 2Institute for Molecular Science (IMS), National Institutes of Natural Sciences, Japan, 3Faculty of Pure and Applied Sciences, University of Tsukuba, Japan
Effect of oxygen addition on fine processing using a nanopipette probe capable of localizing inductively coupled atmospheric pressure plasma
1Graduate School of Integrated Science and Technology, Shizuoka University, Japan, 2Research institute of electronics , Shizuoka University, Japan
Radio Frequency Magnetic Near-field Measurements Using Quartz Turning Fork Force Sensor
Akita University, Japan
Highly Reproducible Fabrication of Sharp Pt/Ir tips for Scanning Probe Microscopy Using Amplitude-Modulated Electropolishing
Department of Materials Science & Engineering, Kyoto University, Japan
Development of Laser Wavelength Variable Cantilever Photothermal Excitation System for FM-AFM Imaging in Liquid
1Kanazawa University, Japan, 2PRESTO, Japan Science and Technology Agency, Japan, 3Nagoya University, Japan
Detecting Liquid-Liquid Interfaces on the Nanometer Resolution by Measuring interfacial energy
Department of Materials Science and Engineering, Graduate School of Engineering, Kyoto University, Japan
Preparation of a Tungsten Tip with a Single-Crystal Domain at its Apex to Extract Sample Electronic Properties Using SPM
1Kanazawa University, Japan, 2Japan Advanced Institute of Science and Technology, Japan
Three-dimensional calculation of light enhancement properties of semi-indirect illumination TERS probes
1Department of Electronic Science and Engineering, Kyoto University, Japan, 2Research & Development Group, Hitachi Ltd., Japan
Circles: a scheme to interpret linear and non-linear interactions in Dynamic AFM
Universidad de Murcia, Spain
Nanoscale Mapping of Liquid Contact Lines with Droplet Probe Microscopy
1Max-Planck-Institut for Polymer research, MPI-P, Germany, 2Universidad Técnica Federico Santa María, Chile
Single-cell mechanics of developing embryos measured by pulsed-force atomic force microscopy
1Graduate School of Information Science and Technology, Hokkaido University, Japan, 2Faculty of Information Science and Technology, Hokkaido University, Japan
Improvement response characteristics of bias modulation mode scanning ion conductance microscopy with capacitance compensation pipette
1Graduate school of Integrated Science and Technology, Shizuoka University, Japan, 2Department of Health Science, Hamamatsu University School of Medicine, Japan, 3Graduate School of Medical and Dental Sciences, Tokyo Medical and Dental University, Japan
Scanning Ion Conductance Microscopy and its associated nanoprobes for single-cell and single-molecule biosensing
WPI Nano Life Science Institute (WPI NanoLSI), Kanazawa University, Japan
Infrared Nano-Spectroscopy and Imaging in Soft Matter: Polymers in Porous Materials and Thin Films
Max Planck Institute for Polymer Research, 55128 Mainz, Germany, Germany
Nanomechanical Properties of Demineralized Cortical Bone Tissue Measured by Atomic Force Microscopy
1Graduate School of Information Science and Technology, Hokkaido University, Japan, 2Graduate School of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University, Okayama University, Japan, 3Department of Dental Biomaterials, Tohoku University, Japan, 4Faculty of Information Science and Technology, Hokkaido University, Japan
-- Cancelled --
Numerical Simulation of Stress Relaxation AFM as Changing the Cantilever Deflection in Time
1Graduate School of Information Science and Technology, Hokkaido University, Japan, 2Faculty of Information Science and Technology, Hokkaido University, Japan
Positional Correlation Analysis of Complex Images Acquired by Scanning Probe Microscopy
1Graduate School of Human and Environmental Studies, Kyoto Univ., Japan, 2Department of Information Science and Engineering, Ritsumeikan Univ.,, Japan, 3Kyushu Inst. Tech., Japan, 4Institute for Molecular Science, Japan
Local Electronic Structures of C60 Island Formed on Au(110)
Toyo Univ., Japan
AFM Observation of Microparticle Latex Film under Tensile Stimulation
1Nagoya University, Japan, 2Exploratory Research Center on Life and Living Systems, Japan
Charge state of Au nanoclusters on anatase TiO2(101) at 78 K by AFM/KPFM
Department of Applied Physics, Graduate School of Engineering, Osaka University, 日本
Collection of Gold from Electronic Waste using Bipolar Electrolysis
1Applied Chemistry and Chemical Engineering Program, Graduate School of Engineering, Kogakuin University, Japan, 2School of Advanced Engineering, Kogakuin University, Japan, 3Division of Liberal Arts, Kogakuin University, Japan
Control of Terrace Shapes of Gallium Oxide Surface via Precise Chemical and Mechanical Polishing
Kyoto Institute of Technology, Japan
Development of a scanning NV center microscopy probe using a diamond pillar probe fabricated by thermal etching
1Japan Advanced Institute of Science and Technology (JAIST), Japan, 2Orbray Co., Ltd, Japan
Probing Excitonic Properties of Suspended Monolayer MoS2 on Anisotropic Patterns
University of Tsukuba, Japan
Electric Field Effect on Super Atomic Molecular Orbitals of C60
University of Tsukuba, Japan
Cross Correlation Measurement with Two Bias Voltage Pulses in Pump-Probe STM
Institute of Pure and Applied Sciences, University of Tsukuba, Japan
Nanoscale Characterization of Calcium Phosphate Clusters using Atomic Force Microscopy and Vibrational Spectroscopy
University of Waterloo, Canada
Author Index
| Abe, M. | 4P-12 | Jiang, Y. | 3A-1 | Onishi, H. | 4P-8 |
| Adachi, K. | 9P-16 | Jiao, F. | 11B-3 | Onishi, H. | 8B-3 |
| Adams, J. D. | 2B-4 | Jiao, Yining. | 4P-15 | Onishi, H. | 4P-20 |
| Ahlawat, V. | 6A-3 | Jiménez-Martín, A. | 5B-3 | Ono, H. | 7A-3 |
| Ahn, T. | 7B-2 | Kakiuchi, T. | 9P-22 | Onozuka, N. | 6A-4 |
| Akabori, M. | 9P-35 | Kakizawa, Y. | 2A-3 | Oostenbrink, C. | 8A-1 |
| Akazawa, Masamichi. | 4P-15 | Kao, Y.J. | 9P-6 | Ota, M. | 4P-11 |
| Akine, S. | 4P-16 | Kappl, M. | 9P-11 | Otaka, A. | 9P-26 |
| Amano, K. | 4P-9 | Kappl, M. | 9P-21 | Pado, G. | 8B-4 |
| An, T. | 9P-35 | Kasas, S. | 8A-2 | Pai, W. W. | 11A-4 |
| Antognozzii, M. | 8B-5 | Katano, S. | 9P-30 | Park, S.-I. | 1A-1 |
| Aoki, Y. | 9P-35 | Kato, K. | 9P-26 | Patil, S. | 6A-3 |
| Aoyagi, K. | 9P-36 | Katsube, D. | 4P-12 | Pereda, J. | 5A-1 |
| Arai, H. | 4P-11 | Kawagoe, T. | 9P-9 | Picco, L.M. | 8B-5 |
| Arai, T. | 2A-2 | Kawano, S. | 9P-29 | Pittenger, B. | 6A-1 |
| Arai, T. | 4P-18 | Kawasaki, H. | 9P-23 | Prananto, D. | 9P-35 |
| Arai, T. | 9P-18 | Kim, D. | 6B-1 | Proksch, R. | 7B-5 |
| Araki, Y. | 2A-2 | Kim, J. S. | 6B-1 | Raju, K. | 9P-6 |
| Araki, Y. | 4P-18 | Kim, JD. | 9P-5 | Roos, A. | 7B-4 |
| Araki, Y. | 9P-18 | Kim, S. | 9P-35 | Saeki, N. | 9P-30 |
| Arashida, Y. | 9P-12 | Kim, S. Y. | 6B-1 | Sankar, R. | 9P-6 |
| Arashida, Y. | 9P-36 | Kim, S.O. | 11A-3 | Sasaki, S. | 4P-11 |
| Arashida, Y. | 9P-38 | Kim, SO. | 9P-5 | Sato, J. | 6B-2 |
| Asakawa, H. | 4P-5 | Kim, T. -H. | 7B-2 | Sato, K. | 4P-11 |
| Asakawa, H. | 4P-16 | Kim, T. S. | 7B-2 | Satoh, C. | 9P-38 |
| Baddorf, A. P. | 6B-1 | Kim, T.-H. | 6B-1 | Satoh, K. | 4P-21 |
| Benten, H. | 8B-4 | Kim, Y. | 9P-2 | Scarano, E. | 7B-4 |
| Berger, R. | 9P-25 | Kinoshita, Y. | 9P-14 | Schaub, R. | 7A-4 |
| Berger, R. | 2A-5 | Kisiel, M. | 7B-4 | Schaub, R. | 7A-1 |
| Bukhteeva, I. | 9P-39 | Kitta, M. | 9P-4 | Sengottaiyan, C. | 11A-2 |
| Butt, H. J. | 9P-11 | Klausberger, M. | 8A-1 | Shao-Horn, Y. | 3A-1 |
| Butt, H.-J. | 2A-5 | Kobayashi, E. | 4P-19 | Shi, Q. | 9P-7 |
| Butt, H.-J. | 9P-21 | Kobayashi, K. | 2A-4 | Shi, Q. | 7A-3 |
| Canena, D. | 8A-1 | Kobayashi, K. | 9P-19 | Shigekawa, H. | 9P-12 |
| Chan, F. | 4P-17 | Kobayashi, N. | 9P-37 | Shigekawa, H. | 9P-36 |
| Chan, F.-Y. | 9P-31 | Kogure, A. | 4P-11 | Shigekawa, H. | 9P-38 |
| Chang, C.S. | 9P-6 | Kojima, G. | 4P-14 | Shima, N. | 9P-18 |
| Chang, G. | 9P-6 | Kokubo, D. | 9P-36 | Shimizu, A. | 9P-36 |
| Chang, J.T. | 9P-6 | Komori, F. | 9P-8 | Shin, D. | 2A-1 |
| Chang, T.R. | 9P-6 | Korchev, Y. | 10B-1 | Shumaly, S. | 2A-5 |
| Chen, C.-h. | 11B-1 | Kotani, T. | 10B-2 | Soler, D. | 5B-3 |
| Chen, J. | 7A-4 | Kotani, T. | 4P-4 | Song, Y. | 3A-1 |
| Cheng, K.-Y. | 11B-1 | Kotani, T. | 9P-22 | Sosnová, Z. | 5B-3 |
| Cheng, R. P. | 11B-1 | Kotani, T. | 4P-17 | Storer, T. M. | 8B-1 |
| Chiu, S.B. | 9P-6 | Kotani, T. | 4P-10 | Strube-Grützner, S.N. | 9P-10 |
| Cho, S.J. | 11A-3 | Koyama, K. | 9P-35 | Su, C.C. | 9P-6 |
| Cho, SJ. | 9P-5 | Kumagai, D. | 9P-37 | Sudersan, P. | 8B-2 |
| Cho, Y. | 2B-3 | Kumagai, H. | 9P-26 | Sudersan, P. | 9P-11 |
| Choi, H. C. | 7B-2 | Kumagai, Y. | 2A-3 | Sugawara, Y. | 9P-32 |
| Chou, Y.-D. | 11B-1 | Kurachi, Y. | 11A-2 | Sumikama, T. | 11A-1 |
| Chu, M.W. | 9P-6 | Kurokawa, S. | 9P-15 | Sumino, A. | 11B-4 |
| Chuang, H.-L. | 11B-1 | Kuwamura, N. | 9P-33 | Sumiyoshi, A. | 2B-3 |
| Chuang, T.M. | 9P-6 | Laroche, A. | 2A-5 | Sun, WY. | 7A-5 |
| Cocker, T. | 11A-4 | LECLERE, Ph. | 10A-2 | Tada, K. | 5B-2 |
| Colchero, J. | 8B-2 | Lee, M. | 2A-1 | Taguchi, R. | 9P-17 |
| Colchero, J. | 6B-3 | Lee, S. H. | 11A-4 | Takagi, Y. | 9P-8 |
| Colchero, J. | 9P-20 | Lee, S.H. | 10A-3 | Takahashi, Masanobu. | 4P-15 |
| Corrales, T.P. | 9P-21 | Leonenko, Z. | 11B-5 | Takahashi, R. | 4P-19 |
| Cortés, D. | 9P-21 | Leonenko, Z. | 9P-39 | Takahashi, T. | 4P-3 |
| de la Torre, B. | 5B-3 | Li, A.-P. | 6B-1 | Takahashi, T. | 6B-2 |
| Decurtins, S. | 9P-1 | Li, C. | 6A-1 | Takahashi, T. | 2B-1 |
| Deopa, S. | 6A-3 | Li, S. | 9P-11 | Takaki, H. | 9P-37 |
| Deveney, B. | 2A-1 | Li, Y.J. | 9P-32 | Takami, T. | 9P-33 |
| Dewolf, P. | 6A-1 | Liang, X. | 4P-1 | Takemoto, K. | 6B-2 |
| Écija, D. | 5B-3 | Liang, X. | 4P-21 | Takeuchi, O. | 9P-12 |
| Edalatmanesh, S. | 5B-3 | Liang, X. | 4P-14 | Takeuchi, O. | 9P-36 |
| Esumi, S. | 9P-13 | Liang, X.B. | 4P-7 | Takeuchi, O. | 9P-38 |
| F-W Chan, J. | 8A-1 | Liao, H.-S. | 5A-1 | Takisawa, R. | 9P-14 |
| Fa, Y.-C. | 11B-1 | Liao, H.S. | 9P-10 | Tanigawa, K. | 4P-16 |
| Fantner, G. | 11B-3 | Lin, H. | 9P-6 | Tanimura, S. | 8B-4 |
| Fleurence, A. | 4P-6 | Liu, S.-X. | 9P-1 | Tanizaki, S. | 4P-21 |
| Fongchaiya, S. | 9P-6 | Lu, Z. | 4P-8 | Tanizawa, T. | 4P-19 |
| Foster, A. S. | 2A-3 | Lu, Z. | 4P-20 | Thomson, N. H. | 8B-1 |
| Foster, A.S. | 10A-1 | Luo, Yuliu. | 4P-2 | Tian, X. | 11A-3 |
| Fujii, Y. | 10B-2 | Ma, Y. | 9P-35 | Tian, XW. | 9P-5 |
| Fujii, Y. | 4P-4 | Maejima, N. | 7A-3 | Tian, Y. | 3A-1 |
| Fujimoto, K. | 7A-3 | Maestro, A.D. | 9P-6 | Tokitoh, S. | 9P-17 |
| Fukuma, T. | 2A-3 | Mallada, B. | 5B-3 | Tomitori, M. | 9P-18 |
| Fukuma, T. | 9P-16 | Mao, H.X. | 4P-7 | Toshimitsu, T. | 4P-17 |
| Fukushima, M. | 7A-4 | Markovitz, D. | 8A-1 | Toyoda, R. | 7B-3 |
| Fukuzawa, R. | 2B-1 | Masaki, M. | 4P-5 | Tsubokura, S. | 9P-29 |
| Fulitasari, V. | 4P-18 | Masamichi, Akazawa. | 4P-2 | Tsuboyama, Y. | 10B-2 |
| Gao, Y. | 3A-1 | Matsumoto, T. | 9P-26 | Tsuboyama, Y. | 4P-4 |
| Glatzel, Th. | 7B-4 | Matsuo, Y. | 7A-3 | Tsuboyama, Y. | 4P-10 |
| Glatzel, Th. | 9P-1 | Meyer, E. | 7B-4 | Tsuji, A. | 4P-3 |
| Gonzalez Martinez, J.F. | 6B-3 | Meyer, E. | 9P-1 | Tsurukawa, Y. | 9P-28 |
| González-Herrero, H. | 5B-3 | Michiue, T. | 4P-10 | Tsutsui, K. | 7A-3 |
| Goto, CE. | 9P-5 | Miles, M.J. | 8B-5 | Uchihashi, T. | 4P-17 |
| Guan, S.Y. | 9P-6 | Minato, T. | 4P-8 | Uchihashi, T. | 5A-1 |
| Gunstheimer, H. | 2B-4 | Minato, T. | 9P-12 | Uchihashi, T. | 9P-31 |
| Guo, J. | 7A-2 | Minato, T. | 4P-20 | Ueda, T. | 4P-8 |
| Guo, J. | 7A-5 | Minato, T. | 2A-2 | Ueda, T. | 4P-20 |
| Guo, Z.H. | 9P-10 | Minato, T. | 9P-29 | Ueda, T. | 9P-29 |
| Gupta, A. | 7B-4 | Miura, N. | 7A-3 | UMASHANKAR, Mr. | 4P-13 |
| Haghighirad, A. | 6B-4 | Miyamachi, T. | 9P-8 | Umeda, Y. | 7A-3 |
| Hain, L. | 8A-1 | Miyamachi, T. | 9P-7 | Utsunimiya, N. | 9P-18 |
| Hakata, S. | 9P-37 | Miyamachi, T. | 7A-3 | Utsunomiya, T. | 4P-9 |
| Hamada, W. | 9P-30 | Miyata, K. | 2A-3 | Utsunomiya, T. | 9P-15 |
| Hamamoto, K. | 7B-3 | Miyata, K. | 9P-16 | Utsunomiya, T. | 9P-17 |
| Hara, M. | 11A-2 | Miyata, Y. | 10B-2 | Venkatesan, B. | 9P-6 |
| Hara, M. | 11A-5 | Miyata, Y. | 4P-4 | Villalba, M.I. | 8A-2 |
| Harniman, R. | 2B-2 | Miyata, Y. | 4P-10 | Vollmer, D. | 2A-5 |
| Harniman, R. | 8B-5 | Miyazawa, K. | 2A-3 | Wada, M. | 9P-30 |
| Hase, I. | 9P-16 | Mizuguchi, M. | 9P-7 | Wang, E. | 3A-1 |
| Hasegawa, K. | 4P-1 | Mizuguchi, M. | 7A-3 | Wang, J.-H. | 5A-1 |
| Hashimoto, R. | 2A-3 | Mogi, H. | 9P-12 | Wang, Y. | 2A-5 |
| Hatakeyama, Yuki. | 4P-2 | Mogi, H. | 9P-36 | Wang, Y. | 2A-4 |
| Haviland, D. | 7B-4 | Mogi, H. | 9P-38 | Wang, Y. | 9P-35 |
| Hayashi, K. | 9P-35 | Mori, H. | 4P-21 | Wei, J.Y. | 9P-32 |
| Hayazawa, N. | 9P-2 | Morigaki, A. | 2A-3 | Wong, R. A. | 9P-2 |
| Heath, G. R. | 8B-1 | Moriguchi, S. | 8B-3 | Wu, L.-C. | 11B-1 |
| Hesaka, R. | 4P-4 | Morimoto, M. | 4P-5 | Wuen, K-Y. | 8A-1 |
| Hikasa, H. | 4P-12 | Morimoto, M. | 4P-16 | Xia, Y. | 3A-1 |
| Hinaut, A. | 9P-1 | Mosser, P. | 9P-1 | Xie, J. | 7A-2 |
| Hinduja, C. | 2A-5 | Müller, M. | 9P-11 | Xu, L. | 3A-1 |
| Hinterdorfer, P. | 8A-1 | Murata, E. | 4P-12 | Xu, Y. | 9P-39 |
| Hinterdorfer, P. | 8A-3 | Nabemoto, A. | 7B-1 | Yabuta, H. | 1A-2 |
| Hioki, H. | 9P-29 | Nagase, M. | 7B-1 | Yamada, T.K. | 5B-2 |
| Hirata, K. | 9P-16 | Nagase, M. | 7B-3 | Yamada, Y. | 9P-37 |
| Hirayama, T. | 8B-3 | Nagata, T. | 9P-23 | Yamada-Takamura, Y. | 4P-6 |
| Hirosawa, K. | 11A-2 | Nakada, M. | 9P-28 | Yamagishi, Y. | 9P-4 |
| Hirosawa, K. | 11A-5 | Nakagawa, T. | 9P-12 | Yamaguchi, Y. | 4P-11 |
| Ho, J.-a. A. | 11B-1 | Nakagawa, T. | 9P-16 | Yamaji , N. | 9P-34 |
| Hong, J. | 3A-1 | Nakajima, K. | 6A-4 | Yamamoto, K. | 7A-3 |
| Hong, M. | 9P-2 | Nakajima, K. | 6A-2 | Yamamoto, M. | 9P-22 |
| Hoogenboom, B. | 2B-4 | Nakajima, K. | 4P-1 | Yamamoto, M. | 4P-10 |
| Hormozi, M. | 9P-11 | Nakajima, K. | 4P-21 | Yamamoto, T. | 4P-10 |
| Horng, E.-C. | 11B-1 | Nakajima, K. | 4P-7 | Yamashita, H. | 4P-3 |
| Hoshi, O. | 11B-2 | Nakajima, K. | 4P-14 | Yamashita, N. | 8B-3 |
| Hoshi, O. | 9P-23 | Nakamoto, K. | 4P-8 | Yamasue, K. | 2B-3 |
| Hoshino, R. | 9P-33 | Nakamoto, K. | 4P-20 | Yanagisawa, R. | 4P-8 |
| Huang, B. | 3A-1 | Nakamoto, K. | 9P-29 | Yanagisawa, R. | 4P-20 |
| Hwang, I.S. | 9P-10 | Nakamura, E. | 7A-3 | Yang, P.Y. | 9P-6 |
| Hwang, J. | 2A-1 | Nakamura, J. | 2B-3 | Yeom, H. W. | 7B-2 |
| Hwu, E. E.-T. | 5A-1 | Nakamura, M. | 8B-4 | Yokoo, T. | 4P-6 |
| Ichii, T. | 4P-9 | Nakashima, S. | 9P-8 | Yokota, M. | 9P-12 |
| Ichii, T. | 9P-15 | Nakazawa, K. | 9P-13 | Yokota, Y. | 9P-2 |
| Ichii, T. | 9P-17 | Nakazawa, K. | 9P-23 | Yokouchi, W. | 4P-19 |
| Ikarashi, T. | 9P-16 | Nguyen, A.N. | 8B-4 | Yokoyama, T. | 9P-8 |
| Imai, Y. | 9P-29 | Nguyen, D.Q. | 11A-3 | Yokoyama, T. | 7A-3 |
| Inami, E. | 4P-3 | Nguyen, H. K. | 6A-2 | Yoshida, K. | 7A-3 |
| Inami, E. | 4P-12 | Nishida, J. | 11A-6 | Yoshida, S. | 9P-12 |
| Inami, E. | 4P-19 | Nishiwaki, Y. | 4P-9 | Yoshida, S. | 9P-36 |
| Inomata, I. | 9P-23 | Nishiwaki, Y. | 9P-15 | Yoshida, S. | 9P-38 |
| Ishibashi, R. | 6B-2 | Nishiwaki, Y. | 9P-17 | Yoshida, T. | 9P-38 |
| Ishii, H. | 5B-2 | Nojima, H. | 9P-22 | Yoshimura, M. | 11A-2 |
| Ishii, H. | 9P-37 | Nojima, H. | 4P-17 | Yoshimura, M. | 11A-5 |
| Ishiyama, O. | 7A-3 | Noma, H. | 9P-29 | Yoshizawa, M. | 9P-33 |
| Ito, M. | 4P-1 | Oh, Y.J. | 8A-1 | Zhang, H. | 2A-3 |
| Ito, M. | 4P-14 | Ohno, Y. | 7B-1 | Zhang, K. | 11A-5 |
| Ito, M. | 9P-19 | Ohno, Y. | 7B-3 | Zhang, K. | 9P-19 |
| Ito, Y. | 4P-12 | Okada, A. | 9P-34 | Zhang, X. | 2A-1 |
| Iwata, F. | 9P-13 | Okada, M. | 9P-26 | Zhang, Y. | 9P-24 |
| Iwata, F. | 9P-23 | Okajima, T. | 10B-2 | Zheng, Y. | 11B-3 |
| Iwaya, K. | 9P-12 | Okajima, T. | 4P-4 | Zhu, R. | 8A-1 |
| Iwayama, H. | 7A-3 | Okajima, T. | 9P-22 | Zhu, R. | 8A-3 |
| Jaques, Y. M. | 2A-3 | Okajima, T. | 4P-17 | Ziegler, D. | 2B-4 |
| Jelínek, P. | 5B-3 | Okajima, T. | 4P-10 | Zutter, M. | 7B-4 |
| Jhe, W. | 2A-1 | Okajima, T. | 9P-28 | ||
| Jia, J.F. | 5B-1 | Okajima, T. | 9P-26 |