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SCEJ 48th Autumn Meeting (Tokushima, 2016)

List of received applications (By topics code)

ST) SCEJ Trans-Division Symposium

ST-12. Batteries, Fuel Cells, Solar Cells and Energy Conversion and that Future -How Can Chemical Engineering Contribute for Them by Material, Processing and System?- (Oral Presentation Category)


Most recent update: 2016-11-29 11:54:01

The keywords that frequently used
in this topics code.		KeywordsNumber
ammonia2
drying2
hydrogen production2
nanoparticle2
catalyst2
SOFC2
Lithium-ion Battery2
Polymer Electrolyte Fuel Cell2
photovoltaic1

ACKN
No.		Title/Author(s)KeywordsStyle
23[Invited lecture] Wet coating as a process to fabricate new interfaces
(Kyutech) (Ful)Yamamura Masato		coating
drying
defects
O
40Novel electrolytic synthesis of organic hydrides by using microemulsion reaction field
(U. Yamanashi) *(Ful)Wakisaka M., (Kumamoto U.) Kunitake M.		hydrogenation
organic hydride
microemulsion
O
60Impact of trace S, Cl, Si contaminants in fuel gas on the performance of SOFC anode
(AIST) *(Ful)Kuramoto Koji, Fukushima Toshiyo, (Ful)Hosokai Sou, (Ful)Matsuoka Koichi, Kishimoto Haruo, Yamaji Katsuhiko		IGFC
Trace impurities
SOFC
O
61Investigation on the effect of trace contaminants in fuel gas on the pressurized SOFC performance
(AIST) *(Ful)Kuramoto Koji, (Ful)Hosokai Sou, Ando Yuji, (Ful)Matsuoka Koichi, (Ful)Kishimoto Haruo, (Ful)Yamaji Katsuhiko		pressurized SOFC
H2S
Chemical degradation
O
73[Invited lecture] Development of lithium-ion battery for expansion into new markets
(Panasonic) (Ful)Ise T.		new markets
automotive
storage
O
75[Invited lecture] Ammonia as a Hydrogen Energy Carrier
(Hiroshima U.) Kojima Yoshitsugu		Ammonia
Hydrogen Energy Carrier
Hydrogen
O
95Electrochemical synthesis of ammonia using mixed protonic-electronic and mixed oxide ionic-electronic conducting cathode
(U. Tokyo) *(Ful)Kosaka Fumihiko, (Stu)Nakamura Takehisa, (Ful)Otomo Junichiro		ammonia
proton conductor
electrolysis
O
130Highly selective methylcyclohexane production by photoelectrochemical hydrogenation of toluene using SrTiO3 photoanode
(U. Tokyo) *(Stu)Kageshima Yosuke, (Ful)Minegishi Tsutomu, (Ful)Domen Kazunari		organic hydrides
methylcyclohexane
photoelectrochemistry
O
224Characteristic analysis of redox flow battery by using electrodes with carbon nanofiber
(Gunma U.) *(Ful)Ishitobi Hirokazu, (Stu·PCEF)Sugawara Satoshi, (PCEF)Yoshida Takuya, (Ful)Nakagawa Nobuyoshi		Vanadium redox flow battery
Carbon nanofiber
Electrode materials
O
380Efficient Preparation of TiO2/C Nanocomposite Electrode Materials Using the Liquid Pulse Injection Technique
(Hokkaido U.) *(Ful)Iwamura Shinichiroh, Fujita Kazuki, Iwashiro Ryo, (Ful)Ogino Isao, (Ful)Mukai Shin		Lithium-ion Battery
Production Process
Nano Material
O
382Development of Novel Proton Exchange Membranes with High Swelling Resistance Based on a Heterocyclic Ring System for PEFC
(Tokyo Tech) *(Stu·APCE)Amari Shuntaro, (KAST/Tokyo Tech) (Ful)Ando Shinji, (Tokyo Tech/KAST) (Ful)Yamaguchi Takeo		Proton Exchange Membrane
Aromatic Polymer
Heterocyclic Ring System
O
435Development of the hydrogen production system by electrolysis of water using a hydrogen permeable palladium membrane electrode
(Utsunomiya U.) *(Ful)Sato Takafumi, Sato Shuhei, (Ful)Itoh Naotsugu		elecrtolysis of water
hydrogen permeable membrane
hydrogen production
O
453Synthesis of lithium titanate nanoparticle-carbon composite
(Tokushima U.) *(Ful)Iuchi Hirotoshi, (Ful)Horikawa Toshihide, (Ful)Sotowa Ken-Ichiro, (Int)Alcantara A J. Rafael		lithium titanate
nanoparticle
composite
O
462SOFC Kinetic Simulations at Triple Phase Boundary Using Methane Fuel
(Kwansei Gakuin U.) *(Stu)Tabuchi T., Wakamatsu K., Tagawa Y., (Ful)Ogura T.		TPB kinetic simulation
Elementary reactions
Methane fuel
O
535Electrochemical deposition of iron sulfide
(Osaka Pref. U.) *(Stu)Yukawa Hikaru, (Stu)Kataoka Kentaro, (Ful)Okamoto Naoki, (Ful)Saito Takeyasu		iron sulfide
elecrochemical deposition
photovoltaic
O
564Dimensionless Modulus Approach to Parametric Studies on PEFC Cathode Catalyst Layers
(Kyoto U.) *(Ful)Yamaguchi Kazuhiro, (Stu)Mitsui Ryoki, (Ful)Kageyama Miho, (Ful)Inoue Gen, (Ful)Kawase Motoaki		PEFC
cathode
dimensionless modulus
O
571Hydrogen Production Using Multi Solid Oxide Elctrolysis Cell stacks
(Toshiba) *(Ful)Tsuchiya Naomi, (Ful)Ohmura Hisao, (Cor)Kanamura Shohei, (Cor)Makino Shin-ichi, (Ful)Yoshino Masato, (Cor)Fujiwara Seiji, (Cor)Kameda Tsuneji, (Cor)Yamada Masahiko, (Ful)Yamada Kazuya		hydrogen production
SOEC
O
607Formation kinetics of a packed layer of particles due to drying of a colloidal suspension
(TUAT) (Ful)Inasawa Susumu		drying
colloids
suspension
O
673Effect of the catalyst support on the formic acid production by the CO2 electrochemical reduction and the formic acid electrochemical oxidation reaction activity
(Kanazawa U./JST-PRESTO) *(Ful)Tsujiguchi T., (Kanazawa U.) (Ful)Osaka Y., (Ful)Kodama A.		Formic acid
Electrochemical reduction of CO2
Direct formic acid fuel cell
O
746Investigation of the reaction mechanism in the selective oxidation using a PAFC-type reactor
(Nagoya-R) *(Ful)Miyata Yasushi, (Nagoya U.) (Ful)Yamada Hiroshi, (Ful)Tagawa Tomohiko		selective oxidation
fuel cell type reactor
O
758Effects of the status of particle packing in slurry on the crack formation of the slurry coatings
(Kobe U.) *(Stu)Ishikawa Daisuke, (Ful)Komoda Yoshiyuki, (Ful)Suzuki Hiroshi, (Ful)Hidema Ruri		crack
particle packing
stress change
O
782Metal Phosphide-Based Novel Anodes for Intermediate Temperature Fuel Cells
(U. Tokyo) *(Ful)Kikuchi Ryuji, Ataku Takahiro, (Ful)Takagaki Atsushi, Oyama S. Ted		metal phosphide
anode
intermediate-temperature fuel cell
O
792Membrane Structure Evaluation and Lithium-ion Storage of SiOC Anode by A Sol-Gel Method
(Osaka Pref. U.) *(Stu)Li B., (Ful)Okamoto N., (Ful)Saito T.		Lithium-ion Battery
Silicon oxycarbide
Sol-Gel
O
797Relationship between electrode structure and cell characteristic and application for development of material and fabrication process
(Kyoto U./JST-PRESTO) (Ful)Inoue G.		porous electrode
reaction and mass transport
simulation
O
850Smoothing the nano surface of porous Si for epitaxial growth to fabricate monocrystalline thin film Si solar cell
(Tokyo Tech) *(Stu)Takazawa C., (Waseda U.) (Stu)Fujita M., (Tokyo Tech) (Ful)Hasegawa K., (JST) Lukianov A., (Waseda U.) (Ful)Noda S., (Tokyo Tech) (Ful)Ihara M.		Solar cell
Porous Si
Zone Scan Annealing
O
897The relation between constitution of fuels and power generation characteristics on SOFC with proton conductor La0.99Ca0.01NbO4
(Tokyo Tech) *(Stu)Shimamura R., Li X., (Ful)Hasegawa K., (Ful)Ihara M.		solid oxide fuel cells
Langmuir reaction model
power generation characteristic
O
916Effect of preparation process on the internal structure of cathode slurry of Li-ion battery
(Kobe U.) *(Stu)Ishibashi Kaoru, (Ful)Komoda Yoshiyuki, (AIST) Kuratani Kentaro, (Kobe U.) (Ful)Suzuki Hiroshi, (Ful)Hidema Ruri, (AIST) Kobayashi Hironori		Li-ion battery
slurry
Rheology
O
941Improvement of Electrode Performance for High-temperature-type Electrochemical Heat Pump using Solid Electrolyte
(Shibaura Inst. Tech.) *(Ful)Tanaka Kotaro, (AIST) Fujii Takahiro, (Shibaura Inst. Tech.) Shimizu Takahiro		Electrochemical heat pump
High temperature heat pump
AMTEC
O
944Development of proton conductive SOFC electrolyte aiming to improve conductivity and power generation characteristics by changing composition ratio of SrPrAlO4
(Tokyo Tech) *(Stu)Kurahashi Y., Li X., (Ful)Hasegawa K., (Ful)Ihara M.		SOFC
proton-conductor
layered perovskite structure
O
948Transport phenomena around the anode and power generation mechanisms in direct carbon fuel cell using chars
(Tokyo Tech) *(Ful)Watanabe Hirotatsu, Umehara Daisuke, Nakanouchi Minori, Hanamura Katsunori		DCFC
fuel cell
carbon
O
953Effect of Solvent to Microstructure of Metal-free Carbon Cathode Using Silk-derived Activated Carbon for PEFC
(Shinshu U.) *(Ful)Fukunaga Hiroshi, Kushibiki Kanshi, Anto Naofumi, (Ful)Shimada Iori, (Ful)Osada Mitsumasa, (Ful)Takahashi Nobuhide		Polymer electrolyte fuel cell
Non-precious metal catalysts
Ionomer
O
987Oxygen Reduction Activity and Fine Structural Analysis of Connected Pt-Fe Nanoparticle Catalyst for Polymer Electrolyte Fuel Cells
(KAST/Tokyo Tech) *(Ful)Kuroki Hidenori, (Ful)Tamaki Takanori, (Tokyo Tech) Nakanishi Shiho, (Nissan Arc) Matsumoto Masashi, Arao Masazumi, Kubobuchi Kei, Imai Hideto, (KAST/Tokyo Tech) Kitamoto Yoshitaka, (Ful)Yamaguchi Takeo		Connected Nanoparticle Catalyst
Oxygen Reduction Activity
Polymer Electrolyte Fuel Cell
O
989Fabrication of catalyst for direct methanol fuel cell using reduction algae: Effect of heat treatment
(Kyoto U.) *(Stu)Shimizu T., Sugiura K., (Ful)Sano N., (Ful)Tamon H.		nanoparticle
catalyst
direct methanol fuel cell
O
992Use of carbon nanotubes synthesized on stainless steel surface for glucose fuel cell electrodes
(Kyoto U.) *(Stu)Hirai D., (Stu)Nojima K., (Ful)Sano N., (Ful)Tamon H.		carbon nanotube
catalyst
glucose fuel cell
O
List of received applications (By topics code)
List of received applications
SCEJ 48th Autumn Meeting (Tokushima, 2016)
(C) 2016 The Society of Chemical Engineers, Japan. . All rights reserved.
Most recent update: 2016-11-29 11:54:01
For more information contact Organizing Committee, SCEJ 48th Autumn Meeting (Tokushima, 2016)
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