Staff

Naoki Wakiya Professor / Hamamatsu

Research Area

Materials Science, Processing of Functional Nano-ceramics such as Electric and Magnetic Thin Films through Vapor Phase

Research Detail

We focus on science and technology of ceramic thin film processing especially self-assembled nano-structure.

Futoshi Iwata Professor / Hamamatsu

Research Area

Precision measurements, Nano fabrication, Surface science

Research Detail

Based on precision engineering, we have been developing novel techniques of nanometer-scale measurement and fabrication.

Chikara Egami Professor / Hamamatsu

Research Area

Optical Data Storage, Optical Measurement

Research Detail

He has been researching laser scanning microscopy and its application such as high density data storage and 3D optical measurment.

Masayuki Okuya Professor / Hamamatsu

Research Area

Optical Materials

Research Detail

Our research group developed a high-frequency plasma and electromagnetic wave for a novel film formation technique. These films are applied to opt-electronic devices, such as dye-sensitized solar cell and UV sensor, as well as TCO films.

Atsushi Kubono Professor / Hamamatsu

Research Area

Organic and Polymeric Thin Films / Liquid Crystals

Research Detail

Our research topics include a novel preparation technique of polymeric thin films with highly ordered structures, namely polymer superlattice, and basic studies for high-performanced organic optoelectronic devices such as liquid crystal displays, sensors and organic transistors.

Jun Kondoh Professor / Hamamatsu

Research Area

Wave electronics Engineering, Sensor engineering

Research Detail

We have been developing sensors and actuators using surface waves, such as surface acoustic waves and surface plasmon waves.

Akinori Konno Professor / Hamamatsu

Research Area

Photoelectrochemistry, Organic Electrochemistry

Research Detail

Development of Efficient Dye-sensitized Solar Cells which is low cost alternative for conventional Silicon Solar Cell.

Hirokazu Tatsuoka Professor / Hamamatsu

Research Area

Semiconductor Engineering, electrical and electronic materials

Research Detail

We develop safe and abundant materials for opto-electronic and thermoelectric applications. We also try to improve optical and thermoelectric properties of the materials by nano-scaled structural control.

Yasumasa Tomita Professor / Hamamatsu

Research Area

Inorganic Solid Materials, Solid State Ionics, Solid State NMR

Research Detail

Development and Total Synthesis of Biologically Active Materials. Design of New Chemzymes and Application to Catalytic Asymmetric Reactions.

Hajime Torii Professor / Hamamatsu

Research Area

Theoretical Chemistry,Molecular Spectroscopy, Solution Chemistry

Research Detail

Dynamics, functions, and interactions of liquids(such as water) and biomolecular systems (such as proteins)are analyzed theoretically. Special emphasis is laid on analysis of the cooperative dynamics in those systems that give rise to their various properties and on fundamentals for its optical detection.

Kazutaka Hirakawa Professor / Hamamatsu

Research Area

Photochemistry, Physical Chemistry, Biomolecular Science, Nanomaterials Science

Research Detail

Fundamental Study of Photodynamic Therapy:Development of DNA Targeting Photosensitizers and Oxygen-independent Photosensitizers.

Desheng Fu Professor / Hamamatsu

Research Area

Multi-functional oxides (dielectrics/piezoelectrics/pyroelectrics/electro-optics), solid state physics

Research Detail

Our group focuses on searching for the novel green multi-funtional oxide materials. Through understanding the physical properties and the underlying physics of the materials, we aim at providing new guides for material design and novel materials for potential applicaitons.

Nobuhisa Fujima Professor / Hamamatsu

Research Area

Theory of Properies and Structures of Materials.Ab Initio Calculations for Non-crystalline materials

Research Detail

First principles calculations for structures and properties in amorphous alloys and non-particles. Computational design for new materials.

Nobuyuki Mase Professor / Hamamatsu

Research Area

Green Organic Chemistry, Process Chemistry, Catalysis

Research Detail

“Development of organic synthetic methodology based on process and green chemistry” aiming at contribution to the nhancement of fundamental technology in the chemical industry

Hongpu Li Professor / Hamamatsu

Research Area

Fiber Optics, Optical Information Processing, and Nanophotonics

Research Detail

Developments for various kinds of fiber gratings including the helical-type fiber gratings, nano/micro fiber gratings, and multichannel fiber gratings and their applications to fiber communications and fiber sensing systems.

Ota Satoshi Associate Professor / Hamamatsu

Research Area

Research Detail

Naonori Sakamoto Associate Professor / Hamamatsu

Research Area

Inorganic Materials Science

Research Detail

Preparation of unique nanosturcutred ceramic crystals and anaysis using microscopic techniques

Kazuo Shimizu Associate Professor / Hamamatsu

Research Area

Atmospheric microplasma application

Research Detail

Plasma medicine, plasma actuator, surface treatment on GaN, solar cell, indoor air treatment.

Yosuke Tashiro Associate Professor / Hamamatsu

Research Area

Biotechnology, Microbiology

Research Detail

We are studying the function and biogenesis of bacterial membrane vesicles and exploiting those particles for biotechnology.

Yasutaka Tanaka Associate Professor / Hamamatsu

Research Area

Lithium ion battery, Supramolecular Chemistry

Research Detail

We are designing and synthesizing novel electrolyte so as to develop batteries for the following generation.

Atsushi Nakamura Associate Professor / Hamamatsu

Research Area

Crystal Growth, Oxide semiconductor, Graphene, 2D materials

Research Detail

Crystal growth of oxide semiconductor, Graphene for nanoelectronic devices. Synthesis of 2D materials.

Tetsuo Narumi Associate Professor / Hamamatsu

Research Area

Bioorganic Chemistry,Medicinal Cheistry, Chemical Biology, Peptide Chemistry

Research Detail

Organic Chemistry-based Drug Discovery and Chemical Biology

Kohei Sato Assistant Professor / Hamamatsu

Research Area

Peptide Chemistyry, Protein Chemistry

Research Detail

Development of novel methodologies for chamical protein synthesis and its application to the synthesis of biologically active proteins

Takao Ebihara Professor / Shizuoka

Research Area

High quality single crystal growth in rare earth and 3d-transition intermetallic compounds. Investigation of electrotransport properties.

Research Detail

Investigation of electrotransport properties in high quality single crystals of rare earth and 3d-transition intermetallic compounds.

Toshiaki Okabayashi Professor / Shizuoka

Research Area

Physical Chemistry, Molecular Science, Molucular Spectroscopy

Research Detail

We have been studing on physico-chemical properties of transient species (radicals and clusters) using molecular spectroscopy.

Kenji Kobayashi Professor / Shizuoka

Research Area

Supramolecular Chemistry, Organic Function Chemstry

Research Detail

Based on supramolecular chemistry and organic structural chemstry, we study on the molecular design, synthesis, and self-assembly of novel organic materials directed to molecular devices.

Mitsuru Kondo Professor / Shizuoka

Research Area

Coordination Chemistry

Research Detail

We have focused on coordination materials that show unique functions based on the structural frameworks. Removals of toxic anions by molecular capsules, dioxygen activationby metal complexes, and dynamic coordination framework that changes responding to external stimuli have been developed.

Rika Sekine Professor / Shizuoka

Research Area

Computational Chemistry, Theoretical Chemistry, Quantum Chemistry

Research Detail

Study on structure, properties, and reactivity for inorganic compounds and materials by molecular orbital method, molecular dynamics, and graph theory.

Makoto Moriya Associate Professor / Shizuoka

Research Area

Materials Chemistry, Inorganic Chemistry

Research Detail

Development of novel solid electrolytes using molecular crystals and plastic crystals.

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