Your search keyword '"TANIOKA, AKIHIKO"' showing total 3 results

1. Insulin transport across porous charged membranes: Effect of the electrostatic interaction

Author

ZHANG, SHAOLING, ZHANG, Shaoling, Matsumoto, Hidetoshi, saito, keiichiro, minagawa, mie, and TANIOKA, AKIHIKO

Subjects

Chemistry, Static Electricity, Analytical chemistry, Thermodynamics, Membranes, Artificial, Hydrogen-Ion Concentration, Thermal diffusivity, Permeability, Recombinant Proteins, Diffusion, Partition coefficient, Protein Transport, Membrane, Adsorption, Permeability (electromagnetism), Humans, Insulin, Effective diffusion coefficient, Solubility, Diffusion (business), Porosity, Biotechnology

Abstract

Insulin transport phenomena across a series of porous charged membranes were studied at two pH conditions (pH 3.3 and pH 7.4) in this article. The membranes were prepared by pore-surface modification of porous poly(acrylonitrile) (PAN) membranes by grafting with weak acidic and basic functional groups. The insulin partition coefficient K between the membrane and solution was estimated from the equilibrium adsorption amount in the batch adsorption experiment. The insulin effective diffusion coefficient D inside the membrane was determined as a fitting parameter by matching the diffusion model with the experimental data of the diffusion measurement. Both K and D correlated well with the charge properties of the insulin and membrane: when the insulin and membrane carried opposite net charge, the partition coefficient showed relatively larger values, while the effective diffusion coefficient was reduced. The insulin permeability coefficient P obtained from the experimental results agreed with that estimated from the partition coefficient and effective diffusion coefficient. These results suggested that the combined effects of the solubility and diffusivity on the permeability coefficient complicated the relationship between the permeability and the charge properties of the insulin and membrane. Additionally, our calculation supported that insulin permeability was reduced by the boundary layer between the membrane and solution.

Published

2009

2. Nanomaterial-Enhanced All-Solid Flexible Zinc-Carbon Batteries

Author

Hiralal, Pritesh, Imaizumi, Shinji, Ünalan, Hüsnü Emrah, Matsumoto, Hidetoshi, Minagawa, Mie, Rouvala, Markku, Tanioka, Akihiko, Amaratunga, Gehan A. J., and OpenMETU

Subjects

Titanium Dioxide, Carbon Fiber, Solid Electrolyte, Battery, Carbon Nanotubes, Flexible

Abstract

Solid-state and flexible zinc carbon (or Leclanche) batteries are fabricated using a combination of functional nanostructured materials for optimum performance. Flexible carbon nanofiber mats obtained by electrospinning are used as a current collector and cathode support for the batteries. The cathode layer consists of manganese oxide particles combined with single-walled carbon nanotubes for improved conductivity. A polyethylene oxide layer containing titanium oxide nanoparticles forms the electrolyte layer, and a thin zinc foil is used as the anode. The battery is shown to retain its performance under mechanically stressed conditions. The results show that the above configuration can achieve solid-state mechanical flexibility and increased shelf life with little sacrifice in performance.

Published

2010

3. コラーゲン繊維に関する研究

Author

TANIOKA, AKIHIKO

Published

1972