Biomimetic design based on bone biomechanics

A novel three-dimensional (3D) printed porous structure with high mechanical performance is designed biomimetically based on the insights of bone biomechanics. The resulting structure might be lightweight and mechanically isotropic with suppressed fracture progression and high energy absorption.

Toward optimal design of wireless environments

We have conducted research in various fields where radio waves are applied, including the evaluation of complex and special propagation environments in airplanes and passenger railroad cars, internal exposure of the human body to radio waves, electromagnetic interference evaluation and mechanism estimation regarding body medical devices implanted in the body, and evaluation of electromagnetic field leakage in wireless power supply devices for electric vehicles.

Next generation biomass production using wastewater and the possibility of using symbiotic bacteria for plant factories

A completely new growth-promoting bacterium, P23, was discovered in ukikusa (subfamily Lemnoideae) at the Hokkaido University Botanical Garden. The P23 bacterium accelerates the growth of plants by stimulating a surface switch. Ukikusa is a high value-added biomass that grows on wastewater as a fertilizer, and symbiosis with P23 doubles its production rate.

International comparative study on the propagation and acceptance of culture through content tourism and its application to the planning of tourism town planning measures

We are conducting an international comparative study of content tourism from the perspective of the propagation and reception of pop culture to clarify the role that such tourism plays in understanding others. The knowledge gained through this research is also returned to the fields of tourism and urban planning in the form of specific measures.

Capturing of cesium contained in decontamination waste by aluminosilicate (alkali feldspar)

The insoluble form of cesium in incineration bottom ash was concentrated in the amorphous phase on the surface of a specific mineral, namely, alkali feldspar. This trapping phenomenon is applied to insolubilize cesium in soil and waste generated during decontamination, and we are developing a technology to control the leaching of cesium, even during long-term storage.

Design of metal complex catalysts using polymeric carriers as the reaction site and development of an efficient synthetic processes

We have developed polystyrene-crosslinked bisphosphine ligands that can be used to create polymer-supported metal catalysts. Thanks to the effect of polymer topology, it is possible to suppress disproportionation of metal complexes and deactivation of catalysts caused by metal aggregation. It is particularly useful as a ligand for first transition series metal catalysts.

When the surface changes, everything changes.

We will introduce our research on the development of superior properties and new functions of aluminum by innovation of anodizing, which is an extremely well-known corrosion-resistant passive coating for aluminum.

From solidification to solid phase transformation

In the manufacturing process of structural and functional materials, various material structures are formed during solidification, heat treatment, and plastic processing, and the characteristics of these structures determine the properties of the materials. We are developing a simulation method to predict the series of material microstructure changes from solidification to solid phase transformation.

The use of lithium-ion batteries has been expanding rapidly due to their high energy density. On the other hand, since organic solvents are used in lithium-ion batteries, it is important to ensure their fire safety. With this study, we focus on the combustion phenomenon of organic solvents and study combustion inhibition technology.

Selective synthesis of cis-alkenes and amines

cis-Alkenes and amines, which are useful as raw materials for pharmaceuticals, agricultural chemicals and other chemical products, can be synthesized efficiently through hydrogenation of alkynes, organic nitro compounds and azides. The originally developed homogeneous palladium nanoparticles can be stored in solution for longer than a year and are easy to handle in air.

Nitride and oxynitride synthesis without using ammonia gas cylinder

This is a method used to convert oxides and other materials into nitrides and oxynitrides at low temperatures (300°C or less) by using a sodium amide melt to trigger a reaction with a highly concentrated and active nitrogen source. Nitrides and oxynitrides can be synthesized without having to prepare toxic ammonia gas cylinders.

Program for promotion of shared use of advanced NMR facilities

The Advanced NMR Facility is the largest NMR facility in Hokkaido, and is not only open to local industries, but also to industry, academia and research institutes nationwide.

New functional composite materials with free fiber shape

Advanced composites (carbon fiber-reinforced composites) have come to be widely used as structural materials, but their anisotropic properties have not yet efficiently been exploited. In our laboratory, we are developing a method to optimally design the fiber orientation (linear or curved) of composites.

Battery-powered, ultra-light, ultra-compact chemical analyzer

Using proprietary technology, we have miniaturized the pump, column and detector, all key components of liquid chromatography, realizing a compact, B5 size, lightweight and portable liquid chromatograph weighing 2 kg. This allows us to instantly obtain analysis results on the spot.

Prediction of transport properties of cement-based materials

Concrete is widely used for infrastructure, and its longevity is essential for the construction of a sustainable society. To realize this, appropriate performance prediction technology is indispensable. In this study, we predicted the transport properties of hardened cement paste (HCP), which is a main component of concrete.

A social psychological approach to consensus building

In situations necessitating decisions involving the entire community, such as those for national and local government planning, a wide range of opinions should be included in a comprehensive manner. The plan will also only be meaningful if it is shared by many people and linked to the actions of each individual. Process design is the key to realizing these goals.

Aiming to spread bioenergy through local circulation

At the Laboratory of Sustainable Material Cycle Systems research is conducted on the development of technologies and social systems (socio-technical systems) to create locally distributed bioenergy from biomass such as food waste, sewage sludge, livestock manure, forest residues and rice straw.

Communication in risk and strategic systems

I am interested in the risk communication that is formed within management organizations. Risk can be broadly classified into pure risk and dynamic risk, and I am examining how these elements shape communication within organizations and define individual and group behavior.

The relationships between electrical properties and structural changes can be evaluated and validated

An electronic device fragment is placed in the electron microscope, and a movable probe electrode is applied to it, enabling observation by the electron microscope while evaluating its electrical characteristics. A MOSFET is connected to the sample side electrode to suppress excessive current. It allows evaluation of the correlation between electrical characteristics and structural changes and is useful to investigate the cause of failures.

Preventing malfunctioning of telecommunication devices caused by cosmic rays

As the semiconductor devices of equipment that support telecommunication networks are becoming more intensively integrated, there is concern that the probability of soft errors caused by cosmic-ray neutrons will increase. To address this problem, we are conducting soft error tests of telecommunication devices using a compact accelerator-driven neutron source at Hokkaido University.