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

`SCEJ 81st Annual Meeting (2016)`

List of received applications (By topics code)

8) Supercritical fluid

8-e. Materials processing & production

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

The keywords that frequently used in this topics code.	Keywords	Number
	Supercritical carbon dioxide	6
	nanoparticle	3
	Graphene Oxide	3
	supercritical fluid	2
	Supercritical CO2	2
	Titanium Oxide Aerogel	1

ACKN No.	Title/Author(s)	Keywords	Style
275	New method using supercritical fluid for manufacturing mesoporous activated carbons, and the application for the electrode of the electric double layer capacitor (Osaka Gas Chemicals) (Ful)Wu Nan, (Ful)Okita Masanobu, (DAI-DAN) (Ful)Nakano Kazuki, (Utsunomiya U.) (Ful)Yoshida Masaaki	Supercritical CO2 Active carbon Pore size control	O
311	Continuous hydrothermal synthesis of LiMn_1/3Ni_1/3Co_1/3O₂ in supercritical water (Kanazawa U.) *(Stu·PCEF)Ogawa Kohei, (Ful)Tamura Kazuhiro, (Ful)Tada Kaoru	Lithium-ion battery supercritical water cathode nano-size particle	P
317	Synthesis of Molybdenum oxide nanoparticles for liquid scintillators for detection of neutrinoless double beta decay (Tohoku U.) *(Stu)Takigawa Susumu, (Tohoku U. NICHe) (Ful)Noguchi Takio, (Ful)Aida Tsutomu, (Tohoku U.) (Ful)Takami Seiichi, (Tohoku U. WPI) (Ful)Adschiri Tadafumi, (Tohoku U.) (Ful)Koshimizu Masanori, Fujimoto Yutaka, Asai Keisuke	Molybdenum liquid scintillators neutrinoless double beta decay	P
371	Fabrication and Characterization of Titanium Oxide Aerogel Dispersed Square Rod Titanium Oxide (NIT Hachinohe) *(Stu)Nara Mitsunobu, Hasegawa Akira, (Ful)Honma Tetsuo	Titanium Oxide Aerogel Supercritical CO2 Drying Sol-Gel Method	P
374	Defective structure of composite oxide nanoparticles synthesized by supercritical hydrothermal method (U. Tokyo) *(Stu)Yoko A., (NIMS) Umezawa N., Ohno T., (U. Tokyo) (Ful)Oshima Y.	Defect XAFS First-principles calculation	O
507	Annealing process to crystalize RuO₂ film made by supercritical fluid deposition (U. Tokyo) *(Stu)Zhao Yu, (Ful)Shimoyama Yusuke, (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro	supercritical fluid anneal RuO2	O
543	Deposition polymerization of fluorinated polyimide using supercritical carbon dioxide (Hiroshima U.) *(Ful)Haruki Masashi, (Stu·PCEF)Oda Asuka, (Stu·PCEF)Wasada Atsuhiko, (Ful)Kihara Shin-ichi, (Ful)Takishima Shigeki	Polyimide Deposition polymerization Supercritical carbon dioxide	O
625	Formation of polymer-ZnO nanoparticle quantum dot composites in supercritical CO₂ (NIT Kurume) *(Ful)Matsuyama Kiyoshi, Maeda Yu-ki, Okuyama Tetsuya, (Toyohashi Tech) Muto Hiroyuki	Supercritical CO2 ZnO quantum dot Poly(methyl methacrylate)	O
654	Effect of surrounding fluids on morphology of carbon nanoparticles generated by laser ablation (Kanazawa U.) *(Ful)Higashi H., Yoshikawa T., (Ful)Kumita M., (Ful)Seto T., (Ful)Otani Y.	laser ablation carbon nanoparticle	O
705	Synthesis of HfO₂ and ZrO₂ nanoparticles modified with π electron molecules for incorporation to plastic scintillators (Tohoku U.) *(Stu)Hiyama Fumiyuki, (Tohoku U. NICHe) (Ful)Noguchi Takio, (Ful)Aida Tsutomu, (Tohoku U.) (Ful)Takami Seiichi, (Tohoku U. WPI-AIMR) (Ful)Adschiri Tadafumi, (Tohoku U.) (Ful)Koshimizu Masanori, Fujimoto Yutaka, (NAIST) Yanagida Takayuki, (NIRS) Nishikido Fumihiko, (KEK) Haruki Rie, Kishimoto Syunji, (Tohoku U.) Asai Keisuke	supercritical nanoparticle scintillator	P
760	Development of metal thin film coating technique of nanoparticle using supercritical carbon dioxide (Shizuoka U.) *(Stu·APCE)Oyama K., (Ful)Okajima I., (Ful)Sako T.	supercritical carbon dioxide nanoparticle coating	P
773	Kinetic Analysis to Establish a Design Method of Hydrothermal Nanoparticle Synthesis with Flow-type Reactor (Tohoku U.) *(Stu·PCEF)Sato A., (Ful)Aoki N., (Ful)Seong G., (Ful)Aida T., (Ful)Hojo D., (Ful)Takami S., (Ful)Adschiri T.	nanoparticles hydrothermal synthesis kinetics	P
808	Functionalization of Graphene Oxide Using the Synergy of Supercritical Carbon Dioxide and Subcritical Water (DLSU-ChE) *(Int)Yu J. M., (Kumamoto U.) (Ful)Quitain A. T., (DLSU-ChE) Dugos N., Borja J., (Kumamoto U.) Kida T.	Graphene Oxide Supercritical Carbon Dioxide Subcritical Water	P
815	Micronization of acetaminophen by supercritical anti-solvent method using swallow micro-mixer (Nagoya U.) *(Stu)Uemori C., (Ful)Wahyudiono, (ITS) (Int)Machmudah S., (Nagoya U.) (Ful)Kanda H., (Ful)Goto M.	anti-solvent supercritical fluid swallow micro-mixer	O
818	Synthesis of Graphene Oxide/Bio-Based Polymer Hybrid Composite Aerogel (DLSU-ChE) *(Int)Co C. J. U., (Kumamoto U.) (Ful)Quitain A. T., (DLSU-ChE) Borja J. Q., Dugos N. P., (Kumamoto U.) Takafuji M., (Ful)Kida T.	Aerogel Supercritical Carbon Dioxide Graphene Oxide	P
828	Functionalization and Characterization of Graphene Oxide in Supercritical Aqueous Ammonia (DLSU-ChE) *(Int)Baldovino F. H., (Kumamoto U.) (Ful)Quitain A. T., (DLSU-ChE) Dugos N., Roces S., (Kumamoto U.) (Ful)Kida T.	Graphene Oxide Supercritical Ammonia Functionalization	O
863	Design of porous materials based on phase behavior for supercritical carbon dioxide system (Tokyo Tech) *(Ful)Shimoyama Y., (Stu)Kunanusont N., (Stu)Kinoshita M.	supercritical carbon dioxide porous material phase behavior	O
907	Development of Production Technique of Fine Powder of Theophylline by the Particles from Gas Saturated Solutions with Spray-Drying (PGSS-SD) Using Supercritical CO₂ (Shinshu U.) *(Stu)Watanabe K., (Ful)Uchida H.	PGSS-SD Supercritical carbon dioxide Theophylline fine powder	P
919	Real-time measurement of size distribution of fine particles generated by rapid expansion of supercritical solution (Kanazawa U.) *(Stu)Muramoto S., (Ful)Higashi H., (Ful)Kumita M., (Ful)Seto T., (Ful)Otani Y.	size distribution fine particle RESS	P

List of received applications (By topics code)

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

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Most recent update: 2016-05-19 11:21:01
For more information contact Organizing Committee, SCEJ 81st Annual Meeting (2016)
E-mail: inquiry-81a

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