SCEJ 81st Annual Meeting (2016): List of the applications (topics)

`SCEJ 81st Annual Meeting (2016)`

List of received applications (By topics code)

9) Energy engineering

9-e. New energies & energy systems

Most recent update: 2016-05-19 11:21:01

The keywords that frequently used in this topics code.	Keywords	Number
	carbon nanotubes	5
	SOFC	5
	proton conductor	4
	Ammonia	3
	Direct formic acid fuel cell	3
	Solar cell	3
	fuel cell	2
	Catalyst layer	2
	Membrane electrode assembly	2
	Direct methanol fuel cell	2
	oxygen reduction reaction	2
	Solid-state alkaline fuel cell	2
	cathode	2
	IT-SOFC	1

ACKN No.	Title/Author(s)	Keywords	Style
55	Oxygen reduction reaction kinetics of cathode microelectrodes supported on oxide ion conductors by scanning probe microscopy (U. Tokyo) *(Stu)Hashikita Naoto, (Ful)Otomo Junichiro	scanning probe microscopy SOFC oxygen reduction reaction	P
226	Performance of a vanadium redox flow battery with a carbon nanofiber electrode (Gunma U.) *(Ful)Ishitobi Hirokazu, (Stu·PCEF)Yoshida Takuya, (Stu·PCEF)Sugawara Satoshi, (Ful)Nakagawa Nobuyoshi	Vanadium redox flow battery Carbon nanofiber Mass transfer	O
252	Catalyst support of silica embedded carbon nanofiber for direct ethanol fuel cell (Gunma U.) *(Stu·PCEF)Ino Yurina, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi	Direct ethanol fuel cell silica embedded carbon nanofiber anode product	P
255	B-site Nb-doped Pr_0.42Sr_0.6 (Co_0.3Fe_0.6)_1-x Nb_xO_3-δ(x=0, 0.05, 0.1 and 0.2) perovskite as cathode material for IT-SOFC (Hirosaki U. NJRISE) *(Stu)Pairuzha Xiaoketi, (Hirosaki U.) (Stu)Deni Khaerudini, (Hirosaki U. NJRISE) (Ful)Guoqing Guan, (Ful)Abuliti Abudula	IT-SOFC Performance cathode material	P
274	CeO₂ embedded carbon nanofiber support used for methanol oxidation electrode (Gunma U.) *(Stu·PCEF)Kunitomo Hikari, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi	Direct methanol fuel cell CeO2 Catalst support	P
290	Power generation characteristics of a direct methanol fuel cell using novel nanofiber catalyst (Gunma U.) *(Stu·PCEF)Tsukagoshi Yosuke, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi	Direct methanol fuel cell TiO2 embedded carbon nanofiber support Catalyst layer	P
304	Morphology control of (Bi_0.135La_0.63Sr_0.477)(Co_0.25Fe_0.75)O_3-δ cathodes for intermediate-temperature solid oxide fuel cells (Hirosaki U.) *(Stu)Deni S. Khaerudini, (Stu)Pairuzha Xiaoketi, (Hirosaki U. NJRISE) (Ful)Guoqing Guan, (Hirosaki U.) (Ful)Abuliti Abudula	solid oxide fuel cells BiLSCF cathode	O
310	Simulation study about theoretical design of Li-air battery (Kogakuin U.) *(Stu)Yamamoto Wataru, (Ful)Takaba Hiromitsu	Li-air battery Molecular Dynamics Solvation energy	P
339	Analysis of fuel cell catalysts by a chemisorption/desorption method (Gunma U.) *(Stu·PCEF)Yamaguchi Ryo, (Stu)Yamamori Shota, Takeuchi Taizo, (Ful)Ishitobi Hirokazu, (Ful)Nakagawa Nobuyoshi	fuel cell catalyst chemisorption methanol oxidation	P
380	Fabrication of formic acid oxidation catalyst using SiO₂ contained carbon nanofiber support (Kanazawa U.) *(Stu)Onishi Ryo, (Kanazawa U./JST-PRESTO) (Ful)Tsujiguchi Takuya, (Kanazawa U.) (Ful)Osaka Yugo, (Ful)Kodama Akio	direct formic acid fuel cell palladium catalyst silicon dioxide	P
381	Electrochemical ammonia synthesis with Ru-based electrode catalysts using proton conducting solid electrolyte (U. Tokyo) *(Ful)Kosaka Fumihiko, Nakamura Takehisa, (Ful)Otomo Junichiro	ammonia proton conductor fuel cell	O
438	Relationship between the calcination behavior of the Pd stabilized by Hyper-branched polymer and the formic acid oxidation reaction activity (Kanazawa U.) *(Stu)Tsuchiya Y., (Ful)Tsujiguchi T., (Nissan chemical) (Cor)Kojima K., (Kanazawa U.) (Ful)Kodama A., (Ful)Osaka Y.	Direct formic acid fuel cell hyper-branched polymer Pd nanoparticle	P
452	Synthesis of lanthanum tungstate and application to proton conducting solid oxide fuel cells (U. Tokyo) *(Stu)Kojo Gen, Matsuoka Shuhei, (Ful)Oshima Yoshito, (Ful)Otomo Junichiro	proton conductor SOFC lanthanum tungstate	P
457	Behavior of the formic acid production by the electrochemical reduction of CO₂ using Sn series catalysts. (Kanazawa U.) *(Stu)Mukae Y., (Ful)Tsujiguchi T., (Ful)Osaka Y., (Ful)Kodama A.	Electrochemical reduction of CO2 Faradaic efficiency Energy career	P
493	Structure Control of Catalyst Layers and Cell Performance Analysis for Enhanced Performance of Solid-state Alkaline Fuel Cells (Tokyo Tech) *(Stu)Suzuki Yuto, (Tokyo Tech/JST-CREST) (Ful)Oshiba Yuhei, (KAST/Tokyo Tech) (Ful)Kuroki Hidenori, (Tokyo Tech/JST-CREST) (Ful)Yamaguchi Takeo	solid-state alkaline fuel cell membrane electrode assembly	P
500	Structural control of PtFe-alloy hollow capsule to elucidate the factors of its high oxygen reduction activity as cathode catalyst for polymer electrolyte fuel cells (Tokyo Tech) *(Stu)Nakanishi Shiho, (KAST/Tokyo Tech.) (Ful)Kuroki Hidenori, (Tokyo Tech./KAST) (Ful)Tamaki Takanori, (Ful)Yamaguchi Takeo	Hollow capsule Catalyst Polymer electrolyte fuel cells	P
518	MEA with Thin Anion Exchange Membrane and Water Transport Analysis in SAFC (Tokyo Tech/JST-CREST) *(Ful)Oshiba Yuhei, (Tokyo Tech) Hiura Junya, (Stu)Suzuki Yuto, (Tokyo Tech/JST-CREST) (Ful)Yamaguchi Takeo	Solid-state alkaline fuel cell Membrane electrode assembly Water transport	O
519	Redox cycle behavior and stability of metal oxides on perovskite oxides supports in chemical looping systems (U. Tokyo) *(Stu)Ochieng James Ochieng, (Ful)Kosaka Fumihiko, (Chuo U.) (Ful)Hatano Hiroyuki, (U. Tokyo) (Ful)Oshima Yoshito, (Ful)Otomo Junichiro	chemical looping system redox cycle perovskite supports	O
580	Carbon nanotube-silicon heterojunction solar cells by wet-coating (Waseda U.) *(Stu)Muramoto Eri, (Stu)Yamasaki Yuhei, (Kyoto U.) Wang Feijiu, (Waseda U.) (Ful)Hasegawa Kei, (Kyoto U.) Matsuda Kazunari, (Waseda U.) (Ful)Noda Suguru	Carbon nanotubes Silicon Solar cells	P
620	Theoretical Study of Conversion Efficiency of Plasmonic Porous Si Solar Cell Depending on Nanostructure (Tokyo Tech) *(Stu)Murakami K., Yamada K., Akita H., (Ful)Ihara M.	Solar Cell Metal Nanoparticle Simulation	P
622	Carbon nanotube papers capturing Si nanoparticles for binder-free anodes of Li secondary batteries (Waseda U.) *(Stu)Kowase Takayuki, (Ful)Hasegawa Kei, Momma Toshiyuki, Osaka Tetsuya, (Ful)Noda Suguru	Li secondary batteries silicon anodes carbon nanotubes	P
692	Intermediate-temperature ammonia synthesis using a solid-state phosphate-based electrolyte (U. Tokyo) *(Stu)Kishira S., Qing G., (Ful)Kikuchi R., (Ful)Takagaki A., (Ful)Sugawara T., Oyama S. T.	Ammonia electrochemical synthesis cesium hydrogen phosphate	P
743	Power generation characteristics of the direct formic acid fuel cell using supported catalyst for anode (Kanazawa U./JST-PRESTO) *(Ful)Tsujiguchi Takuya, (Kanazawa U.) (Stu)Matsuoka Fumihiko, (Ful)Osaka Yugo, (Ful)Kodama Akio	Direct formic acid fuel cell Pd/C Catalyst layer	O
746	1 wt% carbon nanotube lithium ion batteries without binder nor metal foil (Waseda U.) *(Ful)Hasegawa Kei, (Ful)Noda Suguru	lithium ion battery carbon nanotubes binder-free	O
749	Energy analysis of iron-air battery (formerly Kyoto U.) (Ful)Ogino F.	iron-air battery Gibbs energy and enthalpy Efficiency of battery	O
766	The relationship between oxide composing cermet anode and power generation characteristics on pulse jet-RDCFC (Tokyo Tech) *(Stu)Iida Y., (Stu)Hattori S., (Stu)Shimamura R., (Ful)Ihara M.	SOFC fuel cell anode	P
775	Decreasing nano surface roughness of double layer porous Si for monocrystalline thin film Si solar cell by lift-off (Tokyo Tech) *(Stu)Takazawa C., (JST) Lukianov A., (Tokyo Tech) (Stu)Murakami K., (Ful)Ihara M.	solar cell porous Si zone-melting method	P
782	Consideration of thinning each layer of the top cell for high efficiency perovskite/Si tandem solar cell (Tokyo Tech) *(Stu)Suzuki K., Zhang X., Murakami K., (Ful)Ihara M.	Solar cell Perovskite Tandem	P
790	Feasibility study of application of YBCO(CERAMIC) to the cathode of SOFC (Osaka Pref. U.) *(Stu)Yamanaka Toshiya, (Stu)Fujita Takahiro, (Stu)Tajima Soichiro, (Ful)Tsukui Shigeki, (Ful)Adachi Motoaki	SOFC cathode YBCO	P
798	fabrication and evaluation of hydrogen storage material thin film (Osaka Pref. U.) *(Stu)Furukawa Masaaki, (Ful)Tsukui Shigeki, (Ful)Adachi Motoaki	Hydrogen Storage Material Thin Film Hysteresis	P
805	Carbon nanotube sponge-based sulfur cathode for lithium-sulfur batteries (Waseda U.) *(Stu)Hori Keisuke, (Ful)Hasegawa Kei, (Okayama U.) Nishina Yuta, (Waseda U.) Momma Toshiyuki, Osaka Tetsuya, (Ful)Noda Suguru	lithium-sulfur batteries carbon nanotubes sulfur cathodes	P
807	Ammonia absorption characteristics with metal chlorides for ammonia storage (Nagoya U.) *(Stu)Matsuo K., (Ful)Kubota M., (Ful)Matsuda H.	Ammonia Metal chloride Storage	P
842	Stress Analysis of the Metal Hydride Vessel with the Model Taking Account of Particle Packing Structure (NIT Sendai) *(Ful)Okumura Masahiko, (Tohoku U.) (Stu)Ohtani Tomohiro, (Ful)Saito Yasuhiro, (Ful)Matsushita Yohsuke, (Ful)Aoki Hideyuki, (Takasago Therm. Eng.) (Ful)Kawakami Yoshiaki	metal hydride packed bed finite element method	O
856	Evaluation of Conductivity and Application to SOFC of K₂NiF₄ type SrPrAlO₄ (Tokyo Tech) *(Stu)Kurahashi Y., Li X., (Ful)Ihara M.	SOFC proton conductor Ruddelesden-Popper structure	P
914	Creation of oxygen reduction reaction catalyst by supporting ZrO₂ on carbon nanotube papers (Waseda U.) *(Stu)Kuzuhara Soki, (Ful)Hasegawa Kei, (Ful)Noda Suguru	oxygen reduction reaction zirconium oxide carbon nanotubes	P
962	Effect of support materials on redox reaction kinetics of Mn oxide in chemical looping systems (Shinshu U.) *(Stu)Xiong Xiangdong, (Ful)Shimada Iori, (Ful)Osada Mitsumasa, (Ful)Takahashi Nobuhide, (U. Tokyo) (Ful)Otomo Junichiro, (Shinshu U.) (Ful)Fukunaga Hiroshi	chemical looping hydrogen production oxide ion conductor	P
969	The relatives between physical properties of proton conductor oxide and electrode performances by adding materials to anode on solid oxide fuel cells (Tokyo Tech) *(Stu)Shimamura R., Li X., (Stu)Izumi T., (Ful)Ihara M.	solid oxide fuel cell proton conductor power generation	P

List of received applications (By topics code)

List of received applications
SCEJ 81st Annual Meeting (2016)

(C) 2016 The Society of Chemical Engineers, Japan. . All rights reserved.
Most recent update: 2016-05-19 11:21:01
For more information contact Organizing Committee, SCEJ 81st Annual Meeting (2016)
E-mail: inquiry-81a

www3.scej.org

This page was generated by