Masaki Nakayama scite author profile

An atomic force microscope was used to investigate the adhesion behavior of a viscoelastic particle of micron size on a mica plate in water, by attaching a particle of polydiethylhexyacrylate on the end of the cantilever. Load-penetration curves were obtained by pressing the particle to the mica surface and retracting from it afterward. Our attention was especially focused on the individual contribution of the loading and unloading rates, the maximum load, and the contact time of surfaces to the load-penetration curve. A significant hysteresis between the loading and unloading regimes was observed. Two energy dissipation processes were distinguished in this hysteresis; one was correlated with the viscoelastic loss during the detachment, and the other was correlated with the increase of the adhesive force with the contact time. To analyze the features observed, we employed the Johnson-Kendall-Roberts theory, which was modified to allow the increase of the interfacial energy with the contact time. The proposed model was found to give a very good qualitative description for the particle adhesion, which enabled us to estimate the time dependence of the specific work of adhesion as well as the elasticity modulus of particles.

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Formation of Large-Scale Flexible Transparent Conductive Films Using Evaporative Migration Characteristics of Au Nanoparticles

Higashitani

McNamee

Nakayama

2011

Langmuir

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To sustain the growing demand of transparent conductive films for wide applications, such as flat panel displays, a much more cost-effective film is required over the widely used indium tin oxide film. Here we developed a promising method to manufacture a cost-effective flexible transparent conductive film of high performance by first making grid-iron patterns of thin lines on a large scale using evaporative migration characteristics of gold nanoparticles, and then by burying the grid-iron pattern into a poly(ethylene terephthalate) film.

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Growth mechanism of soap-free polymerization of styrene investigated by AFM

Yamamoto

Nakayama

Kanda

et al. 2006

Journal of Colloid and Interface Science

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Thickness dependence of spin wave nonreciprocity in permalloy film

Nakayama

Yamanoi

Kasai

et al. 2015

Jpn. J. Appl. Phys.

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The amplitude of the spin wave (magnetostatic surface spin wave) depends on the propagation direction. Nonreciprocity hardly depends on the permalloy (Py) thickness between 100 and 300 nm, and it is determined by the spin wave resonant frequency. The nonreciprocal parameter decreases with increasing frequency, resulting in the large amplitude asymmetry at high frequencies, which is well supported by a result of theoretical analysis. The nonreciprocity of a 25-nm-thick-film, however, is lower than those of thicker films. This is qualitatively explained by a schematic model based on the origin of nonreciprocity.

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Effects of Particle Deformability on Interaction between Surfaces in Solutions

et al. 2002

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Interactions between a deformable polymer particle and a solid surface of a mica plate in solutions were investigated using atomic force microscopy (AFM), where the particles have the same surface property but different bulk elasticity. Measurements were done in a solution of cetyltrimethylammonium bromide (CTAB), above its critical micelle concentration (cmc). Under these conditions positively charged layers were formed on both mica and particle surfaces, which induce a high repulsive potential between the approaching surfaces. However, above a critical pressure, the surfaces come in adhesive contact by destroying the adsorbed layers. It was found that the total repulsive force between the surfaces and the force required to adhere the particle to the surface increased significantly if the glass transition temperature of the particle was below the ambient temperature. This indicates that the elastic deformation of the particle as the surfaces are brought together greatly increases the total repulsion within the system. A quantitative interpretation of the data was carried out, using a simple model, which was derived from the theory for elastic body deformation developed by Hughes and White. 1 Results of this study provide significant information on the stability of suspensions of low elastic modulus particles.

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Masaki Nakayama

Deformation and Adhesion of Elastomer Microparticles Evaluated by AFM

Formation of Large-Scale Flexible Transparent Conductive Films Using Evaporative Migration Characteristics of Au Nanoparticles

Growth mechanism of soap-free polymerization of styrene investigated by AFM

Thickness dependence of spin wave nonreciprocity in permalloy film

Effects of Particle Deformability on Interaction between Surfaces in Solutions

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