SCEJ 49th Autumn Meeting (Nagoya, 2017): List of the applications (topics)

ST-23. [Trans-Division Symposium] Recent Advances in Batteries, solar Cells, Fuel Cells, Energy Carriers and Other Energy Conversion Technologies from Materials to Systems (Oral Session)

Organizer(s):

Tamaki Takanori (Tokyo Tech), Tsujiguchi Takuya (Kanazawa Univ.), Saito Takeyasu (Osaka Pref. Univ.), Inoue Gen (Kyushu Univ.), Ishikawa Hiroshi (Panasonic Corp.)

This symposium covers researches on secondary batteries, fuel cells, solar cells and other energy conversion technologies. Topics include materials, devices, processes, and systems. In addition to standard presentations, we will have time for "general discussion" on how to include overall vision of energy systems, and needs from industry sections. This symposium consists of two sessions: an oral session and a poster session. In the poster session, excellent presentations by students and young researchers will be awarded.

Most recent update: 2018-02-12 17:39:01

The keywords that frequently used in this topics code.	Keywords	Number
hydrogen	3
SOEC	2
SOFC	2
proton conductor	2
CO2 reforming	1

The keywords that frequently used
in this topics code.

Keywords

Number

hydrogen

SOEC

SOFC

proton conductor

CO2 reforming

ACKN No.	Title/Author(s)	Keywords	Style
11	[Invited lecture] Battery Materials with Materials Simulation and Data Science (NITech/NIMS-Mi2i/GREEN/Kyoto U.-ESICB) Nakayama Masanobu	Materials Informatics Machine Learning Li ion battery	O
25	[Invited lecture] Technology Development of "SPERA Hydrogen" System for Hydrogen Storage and Transportation in Large Scale and Its prospects for the Future (Chiyoda) (Cor)Okada Yoshimi	Hydrogen Energy Carrier Methylcyclohexane	O
34	[Invited lecture] Development of LiB and Fuel cell manufacturing equipment with low cost and high productivity (SCREEN Finetech Solutions) *Yamanaka Masatake, Kawakami Takuto, Takagi Yoshinori	Coating Fuel cell Rechargeable battery	O
190	Homogeneous Deposition of TiO₂ Nanoparticles into Porous Carbons Using a Vacuum Liquid Pulse CVD (Hokkaido U.) *(Ful)Iwamura Shinichiroh, Motohashi Shota, (Ful)Mukai Shin	Lithium-ion Capacitor Production Process Nano Material	O
199	Demonstration of Hydrogen Production by Multi-typed SOEC system (2) Influence on the system by current supply source conditions (Toshiba) *(Ful)Tsuchiya Naomi, (Ful)Ohmura Hisao, (Cor)Kanamura Shohei, (Ful)Yoshino Masato, (Cor)Fujiwara Seiji, (Ful)Kameda Tsuneji, (Cor)Yamada Masahiko, (Ful)Yamada Kazuya	Hydrogen Production SOEC	O
322	Cell fabrication and electrode characteristics of proton-conducting solid oxide fuel cells (U. Tokyo) *(Stu)Kojo Gen, (Tokyo Gas) (Ful)Matsuzaki Yoshio, (U. Tokyo) (Ful)Otomo Junichiro	lanthanum tungsten oxide proton conductor SOFC	O
378	Kinetic Analysis of Electrochemical Promotion in Ammonia Production (U. Tokyo) *(Ful)Kosaka Fumihiko, (Stu)Oikawa Akio, Hasegawa Takuto, (Ful)Otomo Junichiro	ammonia electrosynthesis proton conductor electrochemical promotion	O
393	Energy conversion system with low tar gasifier and Solid Oxide Fuel Cell (SOFC) (ORIST) *(Ful·APCE)Yamaguchi Shimpei, (Ful)Katagiri Kazuaki, Ozaki Tomoatsu, (Ful·PCEF)Ehiro Takuya, Kakitsuji Atsushi	gasification SOFC	O
396	Automatic high-pressure hydrogen generation from formic acid with a nano-Pd heterogeneous catalyst (AIST) *(Ful)Zhong Heng, Iguchi Masayuki, Song Fuzhan, Chatterjee Maya, Ishizaka Takayuki, Nagao Ikuhiro, Xu Qiang, Kawanami Hajime	formic acid decomposition hydrogen energy energy conversion and storage	O
398	Catalysts for hydrogen production by steam reforming of propane (ORIST) *(Ful·APCE)Yamaguchi Shimpei, (Sumitomo Electric Ind.) (Cor)Tawarayama Hiromasa, (Cor)Majima Masatoshi, (ORIST) Shinomiya Naruaki	catalyst hydrogen steam reforming	O
481	Research and development of efficient fuel-power energy conversion technology using solid oxide cells (AIST) *(Ful)Tanaka Yohei, Kato Tohru	Highly efficient SOFC Steam and CO2 electrolysis SOEC	O
488	Formation of anode reaction field for high performance direct carbon fuel cell (Tokyo Tech) *(Ful)Watanabe Hirotatsu, Nakanouchi Minori, Hanamura Katsunori	DCFC char anode	O
506	Mass tranport properties through the electrodes for direct liquid fuel cell (Kanazawa U./JST-PRESTO) *(Ful)Tsujiguchi Takuya, (Kanazawa U.) (Ful)Osaka Yugo, (Ful)Kodama Akio	DFAFC DMFC Mass transport	O
551	Influence of insulation on preservation of snow mound as a cooling source (Yamagata U.) *(Stu)Asahina Kazuma, Ueno Toshiki, (Ful)Higuchi Takeshi	snow storage system cooling source insulation	O
555	Investigation of 2-dimensional crystal growth of the light absorbing layer for perovskite thin film tandem solar cell (Tokyo Tech) *(Stu)Suzuki K., (Ful)Hasegawa K., (Ful)Ihara M.	perovskite solar cell crystal growth	O
562	Rapid fabrication of low defect monocrystalline Si thin film for solar cell on porous Si seed layer with controlled surface roughness in nanometer-size (Tokyo Tech) *(Ful)Hasegawa Kei, Takazawa Chiaki, (Waseda U.) (Stu)Fujita Makoto, (Ful)Noda Suguru, (Tokyo Tech) (Ful)Ihara Manabu	Si solar cell zone heating recrystallization rapid vapor deposition	O
662	Towards ultra-thin plasmonic porous silicon solar cells with effective passivation (Tokyo Tech) *(Ful)Zhang Xiao-Mei, Murakami Kazuki, (Stu)Yogai Ryohji, (Ful)Hasegawa Kei, (Ful)Ihara Manabu	porous silicon solar cells plasmonic	O
673	Modeling Comprehensive Water Electrolysis / H₂ power generation Electrode Reaction Mechanism of Fuel Electrodes in Reversible Solid Oxide Fuel Cell / Electrolysis Cell (RSOFC/EC) for Hydrogen Energy Storage System (Tokyo Tech) *(Stu)Lee H., (Stu)Iida Y., (Stu)Shimamura R., (Ful)Hasegawa K., (Ful)Ihara M.	Hydrogen energy storage system Solid oxide fuel cell Electrode reaction model	O
682	Evaluation of Ag-Sn alloy anodes made by electrodeposition for Na-ion battery (Osaka Pref. U.) *(Stu)Kiyomoto Masaki, (Ful)Okamoto Naoki, (Ful)Saito Takeyasu	Na-ion battery Ag-Sn alloy electrodeposition	O
809	Power output enhancement of the redox flow battery by the electrode with non-uniform porosity (Gunma U.) *(Ful)Ishitobi Hirokazu, (Stu·PCEF)Sugawara Satoshi, (Stu·PCEF)Oba Kosuke, (Stu)Hirano Takumi, (Ful)Nakagawa Nobuyoshi	Vanadium redox flow battery Porosity Internal resistance	O
830	Structural analysis of PEFC catalyst layer using unsupported PtNi aerogels and the modeling of the formation process (Panasonic) *(Ful)Ishikawa Hiroshi, (Paul Scherrer Inst.) Henning Sebastian, Herranz Juan, Schmidt Thomas	catalyst layer modeling aerogels	O
894	Reaction and mass transport simulation of lithium-ion battery with effect of volume change (Kyushu U.) *(Ful)Inoue Gen, (Kyoto U.) (Stu·PCEF)Ikeshita Kazuki, (Ful)Kawase Motoaki	Lithium-ion battery volume expansion simulation	O
956	Experimental study on the heat and mass transfer behavior into the consolidated silica-gel layer (Kanazawa U.) *(Stu)Kotani Shohei, (Ful)Osaka Yugo, (Ful)Tsujiguchi Takuya, (Ful)Kodama Akio	Adsorption heat exchanger silica-gel Desiccant air conditioning	O
962	Rapid production of hydrogen from ammonia by solid-state microwave heating (AIST) *(Ful)Nishioka Masateru, (Ful)Sato Koichi, Miyazawa Akira, (Yazaki) Mouri Aki, Horiuchi Satoru, Toyoda Kazuhiro, Uematsu Shoichi	hydrogen microwave ammonia	O
989	Methane CO₂ reforming over Ni catalysts supported on (La,Ba)_xSr_1-xTiO_3-δ (U. Tokyo) *(Ful)Kikuchi Ryuji, Seki Shiori, Takagaki Atsushi, Oyama S. Ted	Methane CO2 reforming Nickel catalyst	O

ACKN
No.

Title/Author(s)

Keywords

Style

[Invited lecture] Battery Materials with Materials Simulation and Data Science
(NITech/NIMS-Mi2i/GREEN/Kyoto U.-ESICB) Nakayama Masanobu

Materials Informatics
Machine Learning
Li ion battery

[Invited lecture] Technology Development of "SPERA Hydrogen" System for Hydrogen Storage and Transportation in Large Scale and Its prospects for the Future
(Chiyoda) (Cor)Okada Yoshimi

Hydrogen
Energy Carrier
Methylcyclohexane

[Invited lecture] Development of LiB and Fuel cell manufacturing equipment with low cost and high productivity
(SCREEN Finetech Solutions) *Yamanaka Masatake, Kawakami Takuto, Takagi Yoshinori

Coating
Fuel cell
Rechargeable battery

190

Homogeneous Deposition of TiO₂ Nanoparticles into Porous Carbons Using a Vacuum Liquid Pulse CVD
(Hokkaido U.) *(Ful)Iwamura Shinichiroh, Motohashi Shota, (Ful)Mukai Shin

Lithium-ion Capacitor
Production Process
Nano Material

199

Demonstration of Hydrogen Production by Multi-typed SOEC system (2) Influence on the system by current supply source conditions
(Toshiba) *(Ful)Tsuchiya Naomi, (Ful)Ohmura Hisao, (Cor)Kanamura Shohei, (Ful)Yoshino Masato, (Cor)Fujiwara Seiji, (Ful)Kameda Tsuneji, (Cor)Yamada Masahiko, (Ful)Yamada Kazuya

Hydrogen Production
SOEC

322

Cell fabrication and electrode characteristics of proton-conducting solid oxide fuel cells
(U. Tokyo) *(Stu)Kojo Gen, (Tokyo Gas) (Ful)Matsuzaki Yoshio, (U. Tokyo) (Ful)Otomo Junichiro

lanthanum tungsten oxide
proton conductor
SOFC

378

Kinetic Analysis of Electrochemical Promotion in Ammonia Production
(U. Tokyo) *(Ful)Kosaka Fumihiko, (Stu)Oikawa Akio, Hasegawa Takuto, (Ful)Otomo Junichiro

ammonia electrosynthesis
proton conductor
electrochemical promotion

393

Energy conversion system with low tar gasifier and Solid Oxide Fuel Cell (SOFC)
(ORIST) *(Ful·APCE)Yamaguchi Shimpei, (Ful)Katagiri Kazuaki, Ozaki Tomoatsu, (Ful·PCEF)Ehiro Takuya, Kakitsuji Atsushi

gasification
SOFC

396

Automatic high-pressure hydrogen generation from formic acid with a nano-Pd heterogeneous catalyst
(AIST) *(Ful)Zhong Heng, Iguchi Masayuki, Song Fuzhan, Chatterjee Maya, Ishizaka Takayuki, Nagao Ikuhiro, Xu Qiang, Kawanami Hajime

formic acid decomposition
hydrogen energy
energy conversion and storage

398

Catalysts for hydrogen production by steam reforming of propane
(ORIST) *(Ful·APCE)Yamaguchi Shimpei, (Sumitomo Electric Ind.) (Cor)Tawarayama Hiromasa, (Cor)Majima Masatoshi, (ORIST) Shinomiya Naruaki

catalyst
hydrogen
steam reforming

481

Research and development of efficient fuel-power energy conversion technology using solid oxide cells
(AIST) *(Ful)Tanaka Yohei, Kato Tohru

Highly efficient SOFC
Steam and CO2 electrolysis
SOEC

488

Formation of anode reaction field for high performance direct carbon fuel cell
(Tokyo Tech) *(Ful)Watanabe Hirotatsu, Nakanouchi Minori, Hanamura Katsunori

DCFC
char
anode

506

Mass tranport properties through the electrodes for direct liquid fuel cell
(Kanazawa U./JST-PRESTO) *(Ful)Tsujiguchi Takuya, (Kanazawa U.) (Ful)Osaka Yugo, (Ful)Kodama Akio

DFAFC
DMFC
Mass transport

551

Influence of insulation on preservation of snow mound as a cooling source
(Yamagata U.) *(Stu)Asahina Kazuma, Ueno Toshiki, (Ful)Higuchi Takeshi

snow storage system
cooling source
insulation

555

Investigation of 2-dimensional crystal growth of the light absorbing layer for perovskite thin film tandem solar cell
(Tokyo Tech) *(Stu)Suzuki K., (Ful)Hasegawa K., (Ful)Ihara M.

perovskite
solar cell
crystal growth

562

Rapid fabrication of low defect monocrystalline Si thin film for solar cell on porous Si seed layer with controlled surface roughness in nanometer-size
(Tokyo Tech) *(Ful)Hasegawa Kei, Takazawa Chiaki, (Waseda U.) (Stu)Fujita Makoto, (Ful)Noda Suguru, (Tokyo Tech) (Ful)Ihara Manabu

Si solar cell
zone heating recrystallization
rapid vapor deposition

662

Towards ultra-thin plasmonic porous silicon solar cells with effective passivation
(Tokyo Tech) *(Ful)Zhang Xiao-Mei, Murakami Kazuki, (Stu)Yogai Ryohji, (Ful)Hasegawa Kei, (Ful)Ihara Manabu

porous silicon
solar cells
plasmonic

673

Modeling Comprehensive Water Electrolysis / H₂ power generation Electrode Reaction Mechanism of Fuel Electrodes in Reversible Solid Oxide Fuel Cell / Electrolysis Cell (RSOFC/EC) for Hydrogen Energy Storage System
(Tokyo Tech) *(Stu)Lee H., (Stu)Iida Y., (Stu)Shimamura R., (Ful)Hasegawa K., (Ful)Ihara M.

Hydrogen energy storage system
Solid oxide fuel cell
Electrode reaction model

682

Evaluation of Ag-Sn alloy anodes made by electrodeposition for Na-ion battery
(Osaka Pref. U.) *(Stu)Kiyomoto Masaki, (Ful)Okamoto Naoki, (Ful)Saito Takeyasu

Na-ion battery
Ag-Sn alloy
electrodeposition

809

Power output enhancement of the redox flow battery by the electrode with non-uniform porosity
(Gunma U.) *(Ful)Ishitobi Hirokazu, (Stu·PCEF)Sugawara Satoshi, (Stu·PCEF)Oba Kosuke, (Stu)Hirano Takumi, (Ful)Nakagawa Nobuyoshi

Vanadium redox flow battery
Porosity
Internal resistance

830

Structural analysis of PEFC catalyst layer using unsupported PtNi aerogels and the modeling of the formation process
(Panasonic) *(Ful)Ishikawa Hiroshi, (Paul Scherrer Inst.) Henning Sebastian, Herranz Juan, Schmidt Thomas

catalyst layer
modeling
aerogels

894

Reaction and mass transport simulation of lithium-ion battery with effect of volume change
(Kyushu U.) *(Ful)Inoue Gen, (Kyoto U.) (Stu·PCEF)Ikeshita Kazuki, (Ful)Kawase Motoaki

Lithium-ion battery
volume expansion
simulation

956

Experimental study on the heat and mass transfer behavior into the consolidated silica-gel layer
(Kanazawa U.) *(Stu)Kotani Shohei, (Ful)Osaka Yugo, (Ful)Tsujiguchi Takuya, (Ful)Kodama Akio

Adsorption heat exchanger
silica-gel
Desiccant air conditioning

962

Rapid production of hydrogen from ammonia by solid-state microwave heating
(AIST) *(Ful)Nishioka Masateru, (Ful)Sato Koichi, Miyazawa Akira, (Yazaki) Mouri Aki, Horiuchi Satoru, Toyoda Kazuhiro, Uematsu Shoichi

hydrogen
microwave
ammonia

989

Methane CO₂ reforming over Ni catalysts supported on (La,Ba)_xSr_1-xTiO_3-δ
(U. Tokyo) *(Ful)Kikuchi Ryuji, Seki Shiori, Takagaki Atsushi, Oyama S. Ted

Methane
CO2 reforming
Nickel catalyst

List of received applications (By topics code)

List of received applications

SCEJ 49th Autumn Meeting (Nagoya, 2017)

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Most recent update: 2018-02-12 17:39:01
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E-mail: inquiry-49f

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`SCEJ 49th Autumn Meeting (Nagoya, 2017)`

List of received applications (By topics code)

ST) SCEJ Trans-Division Symposium

ST-23. [Trans-Division Symposium] Recent Advances in Batteries, solar Cells, Fuel Cells, Energy Carriers and Other Energy Conversion Technologies from Materials to Systems (Oral Session)