Introduction of my research work "Development of Novel Photo- and Electroactive Materials for the Application to SDGs Materials (Energy, Bio, Watertreatment)": Ichiro Imae, Hiroshima University　　　　　　　　　　　　thermoelectric, thermoelectrics, Seebeck, polymer, conducting polymer, polythiophene, oligothiophene, thiophene, aniline, pyrrole, carbazole, controlled structure, gold medal, silicon, silicone, sex, regioregularity, stereoregularity, molecular weight, sexy, leaked, ethylenedioxythiophene, EDOT, poly(3,4-ethylenedioxythiophene), PEDOT, poly(syrene sulfonate), PSS, graphene, electrochromism, eroticism, electrochromic, electroluminescence, electroluminescent, OLED, EL, solar cell, dye-sensitized, organic photovoltaic, field-effect transistor, OFET, transparent, lithium, battery, nano particle, quantum chemistry, bulk-heterojunction, titania, titanium oxide, platinum, gold, Pt, Au, silver, Ag, diamond, rubby, ACS, american chemical society, RSC, royal society of chemistry, Toyota, Honda, Nissan, Matsuda, Subaru, SONY, Panasonic, TOSHIBA, Hitachi, NEC, IBM, Nature, Science, Wiley, Elsevier, Springer, NMR, HPLC, GPC, DSC, UV-vis, CV, cyclic voltammetry, ultraviolet, vacuum deposition, mechanism, orgasm, university, Hiroshima, atomic bomb, Nagasaki, Kyoto, Tokyo, 2020 Tokyo Olympic, Osaka, Hokkaido, Okinawa, Akihabara, Shinjuku, Shibuya, Himeji, Physical Chemistry, Organic Chemistry, Semiconductor, Aldrich, Tokyo Chemical, TCI, Wako, Kanto Chemical, Nacalai, Gelest, Shin-Etsu, Sumitomo, Mitsubishi, Mitsui, Denka, Kuraray, Daikin, docomo, au, softbank, Hiroshima University

Development of Novel Photo- and Electroactive Materials
for the Application to SDGs Materials

The primary goal in my work has focused on the development of novel π-conjugated polymers/oligomers and organic dyes containing oligothiophenes with well-defined structures for the application to SDGs materials (see the table below).
Furthermore, I am developing composite materials with carbon-based materials such as graphene and carbon nanotube and silicon-based materials such as silica, silsesquioxane and silicon.
I am also interested in the fabrication techniques of the above-mentioned materials using environmentally friendly methods.

Energy Conversion Organic Thermoelectric Cell (OTE)
Organic Photovoltaic Cell (OPV)
Dye-sensitized Solar Cell (DSC)
Energy Storage Lithiun-ion Battery (LIB)
Electrolytic Capacitor (EC)
Display Electrochromic Display (Smart Window)
Electroluminsecent Display (EL)
Conductor/
Semi-conductor Organic Field-effect Transistor (OFET)
(Transparent) Conductive Film with High Mechanical Strength
Bio-related Cellular Device
Biosensor
Environmental Water & Wastewater Treatment

If you are interested in the above-mentioned research works, please contact me.

Some of my research can be viewed on the website,
"Enhance knowledge -Hiroshima University 100 special lectures-".

To conduct these researches, I own the following equipments. If you wish for joint research, commissioned research, commissioned measurements, or technical consultation, please contact the Industry-University Collaboration Division. (See details)

If you want to join with my group as an international student or research student, read this page at first.

Seebeck tester Resistivity meter

Wuhan Joule Yacht (PTM-3) Mitsubishi Chemical (Loresta-GP)

Thermal diffusivity
measurement system Differential scanning calorimeter

Ai-Phase (M3 type 1) Shimadzu (DSC 60)

Laser microscope Vacuum deposition system

Keyence (VK-9700) SANVAC (ED-1500R)

Other equipments
Scanning probe microscope
(AFM, SPM) Agilent (Pico-Plus)
UV-Vis-NIR spectrometer JASCO (V-770)
Electrochemical analyzer Hokuto Denko (HZ-3000 etc)
BioLogic (SP-150)
Princeton Applied Research (VersaSTAT3)
EC Frontier (ECstat-302)
Tip-Sonicator Hielsher (UP200St)
Homogenizer IKA (T25 digital)
UV/Ozon Cleaner Asumi Giken (ASM401oz)

[Top]