Semiconductor Electronics
MAKINO Toshiharu (AIST)
Professor
Diamond, Materials science, electronic device, Quantum device
Research on unique properties of diamond. Development of electronic and quantum devices using their unique properties.
Optoelectronics and Spintronics
YUASA Shinji (AIST)
Professor
spintronics, magnetics, materials science
Research and development of magnetic tunnel junctions, magnetoresistive random access memory MRAM and other spintronics devices.
Power Electronics
YAMAGUCHI Hiroshi (AIST)
Professor
Electric Power Conversion, Power Electronics, Energy Management
Developments of high performance power converters (power electronics) for high efficiency energy use and sustainable society.
KOJIMA Kazutoshi (AIST)
Associate Professor
Power electronics, wide gap semiconductor, materials science
Research and development on wide gap semiconductor epitaxial growth technique such as SiC and its characterization. Development of power device with new structure by using epitaxial growth technique.
Optoelectronic Nanomaterials Engineering
UCHIDA Ken-ichi (NIMS)
Professor
Spintronics, Spin current, Thermoelectric conversion, Thermal energy engineering
Development of novel science and technology of “Spin caloritronics”, an interdisciplinary field between spintronics physics and thermal energy engineering. Spin caloritronics enables unconventional thermoelectric generation and thermal energy control, which are investigated by cutting-edge heat and spin detection techniques.
TAKANO Yoshihiko (NIMA)
Professor
superconductivity, high pressure, machine learning
Our lab is developing novel functional materials such as high-Tc superconductors and magnetic refrigeration materials and so on. Using materials informatics, including machine learning and first-principles calculation, we search for candidate materials. We synthesize and evaluate candidate materials by newly developed diamond anvil cell that can measure physical properties multimodally under high pressure. Our ultimate goal is to discover roomtemperature superconductivity, a dream of humankind.
FUKATA Naoki (NIMS)
Professor
Semiconductors, energy-related materials, nanostructurese
Fundamental and application researches on next-generation high-speed semiconductor transistors and energy-related new materials using functionalized semiconducting nanostructures and composite nanomaterials.
MITANI Seiji (NIMS)
Professor
Spintronics, Magnetic nanostructure, Spin transport, Spinorbit coupling
Development of new magnetic materials and nanostructures by atomic scale control based on state-of-the-art thin film growth techniques. Searching and understanding new functionalities in spin transport and their application to spintronic devices.
YOSHIKAWA Genki (NIMS)
Professor
Nanomechanical Sensor, Olfactory Sensor, Materials Informatics
Development of new molecular sensors/systems towards global-standard artificial olfaction, mobile breath analysis, and new blood/fluid test. Fusion of physics, chemistry, biology, engineering, economics, and cultural anthropology.
ISHII Satoshi (NIMS)
Associate Professor
Nanophotonics, Metamaterial, Plasmonics, Photothermal conversion, Photoelectric conversion
Studies on developing novel photonic nanostructures for extraordinary optical
properties and photoelectric/photothermal conversions. Includes both numerical and experimental works to develop, for examples, optical metamaterials and photonic nanostructures to harvest sunlight as well as solar heat.
SAKURABA Yuya (NIMS)
Professor
Spintronics device, Magnetic functional material, Magnetothermoelectric material
Focusing on special transport and thermoelectric effects derived from magnetism and spin, we fabricate and characterize magnetic thin film materials and multilayer nanostructures. In addition to the basic research, we are also conducting applied research for practical devices such as next-generation data storage, ultra-sensitive magnetic sensors, and novel thermoelectric power generation applications.
YAMAGUCHI Takahide (NIMS)
Professor
Nanoscience, Diamond, Two-dimensional materials
Research on the fundamental properties of advanced electronic materials such as diamond and two-dimensional materials and the development of functional devices, e.g., quantum devices with nitrogen-vacancy centers in diamond and high-performance diamond transistors. Our research involves film growth, device fabrication, and electrical characterization.
Iimura Soshi (NIMS)
Associate Professor
