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SCEJ 79th Annual Meeting (Gifu, 2014)

Session programs

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Supercritical fluid

L116-L125, L302-L309, L320-L323

Most recent update: 2014-03-04 22:22:53
TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Hall L, Day 1
(14:00–15:20) ( Haruki M.)
14:0014:20L116Effect of hot compressed water properties on solid acid catalyzed reaction
(U. Tokyo) Akizuki M, Oshima Y
Hot compressed water
Solid acid catalyst
Effect of water properties
8-d230
14:2014:40L117Hydrothermal oxidative degradation of lignin into organic acids
(Kyoto U.) Hasegawa I., Hangai H., Mae K.
lignin
oxidative degradation
organic acid
8-d815
14:4015:00L118Transformation of woody biomass by carboxylic acid in high-pressure and high-temperature water
(AIST CCS) Kawanami Hajime, Ogawa Kayoko, Ishizaka Takayuki
high-pressure and high-temperature
water
biomass
8-d491
15:0015:20L119A combined effect of supercritical CO2/water medium on the conversion of 5-hydroxymethylfurfural to 2, 5-dimethylfuran
(AIST, Tohoku) Chatterjee M., Ishizaka T., Kawanamii H.
hydrogenation
supercritical carbon dioxide
5-hydroxymethylfurfural
8-d39
15:2015:40Break
(15:40–17:20) ( Uchida H., Hasegawa I.)
15:4016:00L121Sub- and Supercritical Fluid Extraction of Anticancer Compounds from Substandard Seaweeds
(Kumamoto U.) Quitain A., Takamoto K., Kai T., Sasaki M., (Nagoya U.) Goto M.
marine biomass
subcritical water
supercritical carbon dioxide
8-c822
16:0016:20L122Substituents effects on the catalyst of the photoreduction of CO2 in scCO2
(AIST CCS) Kawanami Hajime, (BNL) Grills David, (AIST CCS) Ishizaka Takayuki, Chatterjee Maya
photoreduction
scCO2
Re catalyst
8-d492
16:2016:40L123Development of imprint technology using carbon dioxide
(AIST CCP) Aizawa T., (ITIM) Ishii K., Abe H., (AIST CCP) Hanaoka T.
imprint
carbon dioxide
polymer
8-e85
16:4017:00L124Fabrication of Nanocomposite Thermal Insulating Materials via Foam Extrusion of Polystylene-Silicon Alkoxide-CO2 ternary system
(AIST-NRI) Yoda Satoshi, Harimoto Toshiko, (Shouwa Jyushi) Hamakawa Akira, Takada Motomasa, Ookawa Yasuo, (Tokyo U. Sci.) Otake Katsuto
Polymer nanocomposite
High Pressure Phase Diagram
Thermal Insulating Materials
8-e186
17:0017:20L125Deposition of polyimide thin film using supercritical carbon dioxide
(Hiroshima U.) Haruki M., Hasegawa U., Oda A., Kihara S., Takishima S.
supercritical carbon dioxide
polyimide
deposition
8-e238
Hall L, Day 3
(9:20–10:20) ( Kawanami Hajime)
9:209:40L302Micronization of lutein from marigold flower by supercritical anti solvent
(Nagoya U.) Boonnoun P., (Chulalongkorn U.) Shotipruk A., (Nagoya U.) Nerome H., Machmudah S., Goto M.
lutein
micronization
supercritical anti solvent
8-e473
9:4010:00L303Kinetic study for supercritical fluid deposition of TiO2 using micro- and macro- cavity
(U. Tokyo) Zhao Yu, Momose Takeshi, Shimogaki Yukihiro
TiO2
supercritical fluid deposition
kinetic
8-e112
10:0010:20L304Fabrication of 3D-CIS solar cell structure by conformal deposition of CuInS2 on TiO2 nanoporous films using supercritical fluid
(Tohoku U.) Tomai Takaaki, Watanabe Shinji, Nakayasu Yuta, (U. Tokyo) Momose Takeshi, (Tohoku U.) Honma Itaru
Supercritical Fluid
Solar Cell
Conformal deposition
8-e368
10:2010:40Break
(10:40–12:00) ( Kawasaki S)
10:4011:00L306Phase equilibrium calculation for supercritical carbon dioxide system by equation of state based on hole theory
(Tokyo Tech) Shimoyama Y, Sakabe J, Yokozaki Yuta, (Shinshu U.) Uchida H
supercritical carbon dioxide
hole theory
phase equilibrium
8-b641
11:0011:20L307Elucidation of Co-solvent Effects of Methylparaben on the Production of Theophylline Nanoparticles Using the RESS-SC Technique
(Shinshu U.) Uchida H., Nishijima M., Sano K., (Tokyo Inst. Tech.) Sakabe J., Shimoyama Y.
RESS-SC technique
Theophylline nanoparticle production
Solid cosolvent effects
8-e799
11:2011:40L308Direct exfoliation synthesis of graphene materials by supercritical fluid process
(Tohoku U.) Oka Nobuto, Takaaki Tomai, Itaru Honma
graphene
supuercritical fluid
mass production technique
8-e498
11:4012:00L309A method to produce highly reduced graphene oxide
(Shizuoka U.) Kong Chang Yi, Iwata Futoshi, Sako Takeshi
graphene oxide
reduction
supercritical
8-e518
(15:20–16:40) ( Tomai Takaaki)
15:2015:40L320Production of acetaminophen/cyclodextrin nano-particles using supercritical anti-solvent technique
(Nagoya U.) Tsareva N., Nerome H., Diono W., Machmudah S., Kanda H., Goto M.
supercritical fluid
anti-solvent
particle
8-g318
15:4016:00L321Micronization of carotenoid and cyclodextrin inclusion complex using supercritical antisolvent
(Nagoya U.) Nerome H., Machmudah S., Diono W., (SCF techno-link) Fukuzato R., (kagome) Higashiura T., (Nagoya U.) Kanda H., Goto M.
Supercritical antisolvent
carotenoid
cyclodextrin
8-g444
16:0016:20L322Particle removal in liquid or supercritical CO2 by sintered metallic filters
(Organo) Sugawara H, (AIST) Kawasaki S, (TohokuU.) Suzuki A
supercritical
CO2
particle
8-g326
16:2016:40L323Dissolution behavior of metal from reactor tube into supercritical water at high pressure up to 100 MPa
(AIST, CCS) Fujii T, Ookawara R, (AIST, NRI) Sue K, (AIST, CCS) Kawasaki S
metal dissolution
supercritical water
pressure
8-g97

Technical program
SCEJ 79th Annual Meeting (Gifu, 2014)

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Most recent update: 2014-03-04 22:22:53
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