Thermal Energy Materials Group
In the 20th century mankind has achieved unprecedented control over the electron, spin, photon, however one of the most important scientific challenges for the 21st century is how to achieve a high degree of control over phonons, or rather thermal energy.
Our group is mainly involved in research on development of cutting edge thermoelectric materials and also fundamental understanding, measurement technology, and control over thermal transport. We are also involved in developing thermoelectric devices which can be used to autonomously power innumerable IoT sensors, and modules for realizing energy saving and zero emission.
Specialized Research Field
Development of novel thermoelectric materials
In other approaches, we have also been carrying out research on band engineering, material informatics, nanocomposites to control thermal and electrical properties, inorganic-organic hybrids, utilization of grain boundaries and interfaces, to develop novel high-performance thermoelectric materials.
Development of measurement technology for thermal transport, and thermoelectric device development
To realize thermal energy harvesting for IoT sensors and devices, in addition to bulk thermoelectric power generation modules, we have been developing thin film thermoelectric modules, flexible inorganic-organic hybrid power generating sheets. We are also developing high temperature thermoelectric power generation modules for the topping cycles in power plants, namely applications to save energy.
Synthesis of novel inorganic materials and properties development
We have also been carrying out multi-faceted research on inorganic materials such as novel oxides, silicides, nitrides, chalcogenides (sulfides, selenides, tellurides).