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SCEJ 52nd Autumn Meeting (Okayama, 2021)

List of received applications (By topics code)


ST) SCEJ Trans-Division Symposium

ST-24. [Trans-Division Symposium] Cell, Energy Conversion and Storage Technology Research Developing from Nano-scale to System Widely (Poster)

Organizer(s): Nishimura Akira (Mie Univ.), Inoue Gen (Kyushu Univ.), Kikuchi Ryuji (UTokyo), Fukunaga Hiroshi (Shinshu Univ.), Tamaki Takanori (Tokyo Tech), Hasegawa Kei (Tokyo Tech)

In this symposium, we call for lectures on energy devices and related energy conversion technologies such as fuel cell, solar cell, secondary battery, etc.. We accept lectures widely from the view point of nano-scaled material development as well as energy system. Poster presentations are welcomed for those who want to discuss thoroughly. In the poster presentation category, excellent presentations by students will be awarded.

Most recent update: 2022-01-31 16:50:01

The keywords that frequently used
in this topics code.
KeywordsNumber
Separator Thickness2
PEFC2
cellulose2
vanadium redox flow battery2
membrane1

ACKN
No.
Title/Author(s)KeywordsStyle
70Impact Assessment of Separator Thickness on Various Characteristics of Single Cell of PEFC Operated at High Temperature
(Mie U.) *(Stu)Kojima Yuya, (Stu)Ito Syogo, (Reg)Nishimura Akira, Hirota Masafumi
PEFC
Separator Thickness
High Temperature Operation
P
78Impact Analysis of Separator Thickness on Heat Transfer Phenomena in Single Cell of PEFC under High Temperature Condition
(Mie U.) *(Stu)Kono Nozomu, (Reg)Nishimura Akira, Toyoda Kyohei, Mishima Daiki, Hirota Masafumi
PEFC
Heat Transfer Modeling
Separator Thickness
P
160Synthesis of GTBE by carbon-based catalytic method using microwave irradiation
(Kumamoto U.) *(Stu)Ogasawara Yuri, (Reg)Kida Tetsuya, (Reg)Armando Quitain
biodiesel
renewable energy
Glycerin
P
171Preparation of Free-standing Graphene Oxide Membrane Modified with Phenylene Diamine Sulfonic Acid for fuel cells
(Gunma U.) *(Stu·PCEF)Uehara Kaito, (Reg)Ishitobi Hirokazu, (Reg)Nakagawa Nobuyoshi
Graphene oxide
Fuel cell
Electrolyte membrane
P
200Preparation of mesoporous materials from cellulose - Effect of addition of melamine sulfate -
(Osaka Pref. U.) *(Stu)Chen Qi, (Reg)Muto Akinori
Cellulose
Mesoporous carbon
Electric double-layer capacitor
P
277Development of Fibrous- Self Supported Connected Metal Nanoparticle Catalysts
(Tokyo Tech) *(Stu)Akimoto Minori, (Reg)Kuroki Hidenori, Sugita Yoshiyuki, Anilkumar Gopinathan M., (Reg)Tamaki Takanori, (Reg)Yamaguchi Takeo
Nanonetwork
Nanofiber
Water electrolysis
P
278Synthesis and characterization of prGO based composite for supercapacitor
(Shizuoka U.) (Stu)Ma Jiaojiao, Yao Fangbo, *(Reg)Kong Chang Yi
supercapacitor
prGO
specific capacitance
P
319Grafted electrolyte membrane with sulfonic acid-polymer showing high proton conductivity for vanadium redox flow battery
(Gunma U.) *(Stu)Obata Ryusuke, (TUAT) Sugiura Naruya, (Reg)Ohashi Hidenori, (Gunma U.) (Reg)Ishitobi Hirokazu, (Reg)Nakagawa Nobuyoshi
vanadium redox flow battery
membrane
proton conductivity
P
334CO2 activated seamless porous carbon electrode for vanadium redox flow battery.
(Gunma U.) *(Stu)Wakasugi Takuma, Doki Honoka, Shiraishi Soshi, (Aion) Tsukada Hidehiko, Tomita Natsumi, (Gunma U.) (Reg)Ishitobi Hirokazu, (Reg)Nakagawa Nobuyoshi
CO2 activation treatment
seamless porous carbon
vanadium redox flow battery
P
413Effect of some metal oxides on the CO2 reduction activities of CuZnO catalysts
(Gunma U.) *(Stu·PCEF)Higuti Koko, (Reg)Ishitobi Hirokazu, (Reg)Nakagawa Nobuyoshi
CO2 reduction reaction
CuZnO
atmospheric pressure
P
456Synthesis of highly dispersed CoNx-doped mesoporous carbon using ionic liquids
(Osaka U.) *(Stu)Shu Yasuhiro, (Reg)Miyake Koji, (Reg)Uchida Yoshiaki, (Reg)Nishiyama Norikazu
ORR
Fuel cells
Electrochamical
P
462Electrochemical reduction of CO2 using proton-conducting ceramic electrolytic cell
(U. Tokyo) *(Stu)Huang Rui, (Tokyo Tech) (Reg)Otomo Junichiro
CO2 utilization
Electrochemical reduction
Proton-conducting electrolyte
P
463Techno-Economic Analysis and Manufacturing Process Design of Protonic Ceramic Fuel Cells
(U. Tokyo) *(Stu)Yamate Shun, (Tokyo Tech) (Reg)Otomo Junichiro
Protonic ceramic fuel cells
Manufacturing process design
Cost engineering
P
472Synthesis and characterization of biomass-derived mesoporous carbon electrodes for electrochemical reduction of CO2
(Fukuoka U.) *(Stu)Yoda Takuya, (Reg)Yoshihara Naoki, (Reg)Kato Takafumi
CO2 reduction
carbon electrode
biomass
P
551Effect of hydrothermal treatment of cellulose in biofuel using woody biomasses
(Okayama U.) *(Stu)Fukugi Tomohide, (Reg)Shimanouchi Toshinori, (Reg)Kimura Yukitaka
biofuel cell
cellulose
hydrothermal treatment
P
737Effect of the CO2 condition on the efficiency of the formic acid production by the electrochemical reduction of the CO2
(Kanazawa U.) *(Stu)Fujioka Yuto, (Reg)Osaka Yugo, (Reg)Kodama Akio, (Reg)Tsujiguchi Takuya
Electrochemical CO2 reduction
formic acid
Faradaic efficiency
P
739Fundamental study on controlling the pore properties of the catalyst layer for the direct formic acid fuel cells
(Kanazawa U.) *(Stu)Honda Masaya, (Reg)Osaka Yugo, (Reg)Kodama Akio, (Reg)Tsujiguchi Takuya
DFAFC
catalyst layer
pore
P
794Structure control of Cu catalysts and electrodes for CO2 electroreduction to ethylene
(Tokyo Tech) *(Stu)Matsuyama Naoki, (Reg)Tamaki Takanori, (Reg)Yamaguchi Takeo
CO2 electroreduction
Cu catalyst
structure control
P
874Stress prediction of particle structure by numerical simulation and machine learning
(Kyushu U.) *(Stu)Komori C., (Stu)Ishikawa S., (Stu)Nunoshita K., So M., (Reg)Kimura N., (Reg)Inoue G., (Reg)Tsuge Y.
Stress distribution
DEM
Machine learning
P
8783D Generation and Reconstruction of the Fuel Cell Catalyst Layer using 2D Images based on Deep Learning
(Kyushu U.) *(Stu)Liu X., (Stu)Ishikawa S., Park K., So M., (Reg)Kimura N., (Reg)Inoue G., (Reg)Tsuge Y.
Fuel Cell Catalyst Layer
Deep Learning
3D generation
P

List of received applications (By topics code)

List of received applications
SCEJ 52nd Autumn Meeting (Okayama, 2021)

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Most recent update: 2022-01-31 16:50:01
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