Your search keyword '"Hirofumi Yamada"' showing total 6 results

1. Investigation of Local Hydration Structures of Alkanethiol Self-Assembled Monolayers with Different Molecular Structures by FM-AFM

Author

Hirofumi Yamada, Kei Kobayashi, and Akito Fujita

Subjects

Materials science, Superlattice, Ionic bonding, Self-assembled monolayer, 02 engineering and technology, Surfaces and Interfaces, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, Electrostatics, 01 natural sciences, 0104 chemical sciences, Dipole, Chemical physics, Monolayer, Electrochemistry, Molecule, General Materials Science, Surface charge, 0210 nano-technology, Spectroscopy

Abstract

Hydration structures play crucial roles in a wide variety of chemical and biological phenomena. However, the key factors that determine a hydration structure remain an open question. Most recent studies have focused on the electrostatic interactions between the surface charges and dipoles of water molecules, which are determined by the atomic/ionic species of the outermost solid surface, as the dominating factor. The number of studies on the correlation between the hydration structure and the atomic-scale surface corrugation has been limited. In this study, we investigated the hydration structures of alkanethiol self-assembled monolayers terminated with a hydroxyl group using frequency-modulated atomic force microscopy. We observed two molecular structures, namely, the (√3 × √3) R30° structure and the c(4 × 2) superlattice structure, and found that their hydration structures are different mainly because of the slight differences in their molecular arrangements. This result suggests that a slight difference in the molecular/atomic arrangements as well as the atomic/ionic species in the outermost solid surface strongly influences the local hydration structures.

Published

2018

2. Atom-Resolved Analysis of an Ionic KBr(001) Crystal Surface Covered with a Thin Water Layer by Frequency Modulation Atomic Force Microscopy

Author

Masahiko Tomitori, Noriaki Oyabu, Toyoko Arai, Kei Kobayashi, Hirofumi Yamada, Ryohei Kokawa, Masashi Koshioka, Kouhei Abe, and Masahiro Ohta

Subjects

Cantilever, Chemistry, Electrostatic force microscope, Analytical chemistry, Ionic bonding, Surfaces and Interfaces, Conductive atomic force microscopy, Condensed Matter Physics, Ion, Crystal, Adsorption, Atom, Electrochemistry, General Materials Science, Spectroscopy

Abstract

An ionic KBr(001) crystal surface covered with a thin water layer was observed with a frequency modulation atomic force microscope (FM-AFM) with atomic resolution. By immersing only the tip apex of the AFM cantilever in the thin water layer, the Q-factor of the cantilever in probing the solid-liquid interface can be maintained as high as that of FM-AFM operation in air, leading to improvement of the minimum detection of a differential force determined by the noise. Two types of images with atom-resolved contrast were observed, possibly owing to the different types of ions (K(+) or Br(-)) adsorbed on the tip apex that incorporated into the hydration layers on the tip and on the sample surface. The force-distance characteristics at the solid-water interface were analyzed by taking spatial variation maps of the resonant frequency shift of the AFM cantilever with the high Q-factor. The oscillatory frequency shift-distance curves exhibited atomic site dependence. The roles of hydration and the ions on the tip and on the sample surface in the measurements were discussed.

Published

2015

3. Investigation of Molecular Chain Orientation Change of Polymer Crystals in Phase Transitions by Friction Anisotropy Measurement

Author

Kuniko Kimura, Hirofumi Yamada, Kei Kobayashi, and Kazumi Matsushige

Subjects

chemistry.chemical_classification, Phase transition, Fabrication, Condensed matter physics, business.industry, Chemistry, Surfaces and Interfaces, Polymer, Condensed Matter Physics, Ferroelectricity, Optics, Chain (algebraic topology), Orientation (geometry), Microscopy, Electrochemistry, General Materials Science, Anisotropy, business, Spectroscopy

Abstract

Direct observation of the molecular orientation change in polymer crystals provides us visible information for understanding their structural phase-transition mechanisms. In this letter, we successfully identified the main-chain orientation of poly(vinylidenefluoride-trifluoroethylene) (P(VDF-TrFE)) crystals over all directions using friction anisotropy measured by lateral-modulation friction force microscopy (LM-FFM). This technique made possible our investigation of molecular orientation changes caused by a ferroelectric phase transition and also a fabrication process for artificial nanometer-scale structures. These results give us visual information that is directly connected to the transition mechanisms.

Published

2007

4. Interpretation of Direct and Indirect Force Modulation Methods Using Polymer Films

Author

Shin-ichi Yamamoto and Hirofumi Yamada

Subjects

Cantilever, Electrostatic force microscope, Analytical chemistry, Stiffness, Surfaces and Interfaces, Condensed Matter Physics, Magnetic field, Electromagnetic coil, Magnet, Electrochemistry, medicine, General Materials Science, Magnetic force microscope, medicine.symptom, Elasticity (economics), Composite material, Spectroscopy

Abstract

We have investigated regional variations of elastic properties using magnetic force-controlled atomic force microscopy (AFM). A piece of small magnet was fixed at the end of the backside of the AFM cantilever so as to apply forces directly to the tip through the external magnetic field of a coil. When the forces applied to the tip are modulated with direct force modulation and the resulting amplitude of oscillation is measured, a sensitive measurement of the local contact stiffness can be made. We have applied this technique to polymer films of poly(ethylene oxide) (PEO) on mica. The soft PEO was measured easily with the faint magnetic forces between the tip and sample. The contrast of the image can selectively be enhanced on the basis of the local elasticity difference, when a soft cantilever was used. On the contrary the spring constant of the cantilever which we should use is determined by the elasticity of materials using indirect force modulation by modulating the sample displacement. The direct forc...

Published

1997

5. Atom-Resolved Analysis of an Ionic KBr(001) CrystalSurface Covered with a Thin Water Layer by Frequency Modulation AtomicForce Microscopy.

Author

Toyoko Arai, Masashi Koshioka, Kouhei Abe, Masahiko Tomitori, Ryohei Kokawa, Masahiro Ohta, Hirofumi Yamada, Kei Kobayashi, and Noriaki Oyabu

Published

2015

6. True Atomic-Resolution Imaging of (101̅4) Calcite in Aqueous Solution by Frequency Modulation Atomic Force Microscopy.

Author

Sebastian Rode, Noriaki Oyabu, Kei Kobayashi, Hirofumi Yamada, and Angelika Kühnle

Published

2009