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SCEJ 52nd Autumn Meeting (Okayama, 2021)

List of received applications (By topics code)


SY) SCEJ Division Symposium

SY-73. [Symposium of Division of Supercritical Fluids] Supercritical Fluids Technologies in Japan -The past 20 years and the future-

Organizer(s): Tomai Takaaki (Tohoku Univ.), Momose Takeshi (UTokyo), Suzuki Shogo (Albion), Sue Kiwamu (AIST)

This year is the 20th year anniversary of "Division of Supercritical Fluids." In this symposium, we will look back on the activity of this division for20 years, and will actively discuss the latest research results from a wide perspective, from the basics of physical properties of sub- and supercritical fluids, to the application of sub- and supercritical fluids to the environment, energy, materials, etc.. Prizes will be awarded for outstanding student presentations.

Most recent update: 2022-01-31 16:50:01

The keywords that frequently used
in this topics code.
KeywordsNumber
Subcritical water6**
supercritical carbon dioxide6**
supercritical fluids4*
hydrothermal4*
Machine learning3*
Supercritical fluid3*
surface modification2
polylactic acid2
Carbon dioxide2
defluorination2
Protein2
Polymer foam2
extraction2
Perfluorooctanoic acid1

ACKN
No.
Title/Author(s)KeywordsStyle
99Extraction of bio-oil in rice bran using expanded liquid with CO2
(Shizuoka U.) *(Stu)Ito Kaichi, (Reg)Okajima Idzumi, (Reg)Kong Chang Yi, (Reg)Sako Takeshi
CO2-expanded hexane
Extraction
bio-oil
O
112Liquefaction of agricultural materials by subcritical water treatment and application of the liquefied products to vinegar production additives
(Kumamoto U.) *(Stu)Murakami Daigo, Yamato Kazuharu, (MAFT) (Cor)Hirayama Shoji, (Cor)Hoshino Yuriko, (Maruboshi Vinegar) Hoshino Munehiro, (Kumamoto U. IINa) (Reg)Sasaki Mitsuru
Subcritical Water
Liquefaction
Sake Lees
O
156Quantitative analysis of Kamlet-Taft parameter for evaluating local composition in supercritical fluid systems
(Tohoku U.) *(Stu·PCEF)Moriya Mayu, (Reg)Ota Masaki, (Reg)Inomata Hiroshi
supercritical carbon dioxide
Kamlet-Taft parameter
solvent property
O
157Effect of operation factors on surface modification of silica particles by alcohol in supercritical CO2
(Tohoku U.) *(Stu·PCEF)Masuda Miku, (Reg)Ota Masaki, (Reg)Inomata Hiroshi
supercritical carbon dioxide
surface modification
silica particles
O
184[Requested talk] Advanced material development and process development based on research on the physical properties of supercritical fluids
(Kanazawa U.) (Reg)Haruki Masashi
Supercritical fluid
Physical property
Advanced material processing
O
185[Invited lecture] R&D of practical materials/processes via supercritical fluids in AIST as a hub institute for government, academia, and industry
(AIST) (Reg)Yoda Satoshi
Supercritical Fluids
National Institute
R & D Hub
O
186[Invited lecture] History of Supercritical Fluid Research Division and Contribution to Research Activity in Japan
(Tohoku U.) (Reg)Inomata Hiroshi
Supercritical Fluid
Research Division
History
O
187[Invited lecture] International collaboration and commercialization through industry-academia collaboration in supercritical fluid technology
(Nagoya U.) (Reg)Goto Motonobu
Supercritical fluid
International collaboration
Commercialization
O
188[Requested talk] Examination of large-scale demonstration equipment that contributes to the hydrothermal technology research
(Tohzai chemical Ind.) (Reg)Akimoto Keita
Hydrothermal
Large-Scale demonstration equipment
O
189[Invited lecture] A perspective on the impact of supercritical fluid research published by SCF Division and related members
(Tohoku U.) (Reg)Smith Richard
Impact factor
research trends
supercritical fluids
O
190[Requested talk] Supercritical fluid deposition (SCFD): from kinetics to device application
(U. Tokyo) (Reg)Momose Takeshi
Supercritical fluids
deposition
thin film
O
191[Requested talk] Hydrothermal treatment for controlling the production and decomposition of biomass materials
(Shinshu U.) (Reg)Osada Mitsumasa
Biomass
Hydrogel
Subcritical water
O
192[Requested talk] Development of fast chemical process using high pressure fluids: Continuous extraction and machine learning
(AIST) (Reg)Fujii Tatsuya
supercritical
extraction
machine learning
O
244Precursor Cerium Valence Effects on Organically Modified Cerium Oxide Nanoparticle Synthesis by Supercritical Hydrothermal Method
(Tohoku U./Toppan Printing) *(Stu)Omura Yuki, (Tohoku U. WPI-AIMR) (Reg)Yoko Akira, (Tohoku U. NICHe) (Reg)Seong Gimyeong, (Tohoku U. IMRAM) (Reg)Tomai Takaaki, (Tohoku U. WPI-AIMR) (Reg)Adschiri Tadafumi
Cerium oxide
Supercritical hydrothermal synthesis
Nanoparticle
O
246Investigation of in-situ regeneration conditions for solid acid catalyst using supercritical water oxidation
(U. Tokyo) *(Stu)Chen Wenjing, (Reg)Akizuki Makoto, (Reg)Oshima Yoshito
Supercritical water oxidation
Solid acid catalyst
Catalysts regeneration
O
312Micro-coating of Functional proteins for Achieving Drug Delivery System
(Fukuoka U.) *(Stu·APCE)Yashima Nanako, (Stu·APCE)Tokunaga Shinichi, Nakamura Miyuki, (Reg)Sharmin Tanjina, (Reg)Aida Taku, (Reg)Mishima Kenji
Supercritical Carbon Dioxide
Drug Delivery System
O
331Effect of Alcohol Addition on Supercritical Carbon Dioxide Foaming of Polystyrene
(Tokyo U. Sci.) *(Stu)Niikawa Kyohei, (Reg)Matsukawa Hiroaki, (Reg)Murakami Yuya, (Reg)Shono Atsushi, (Reg)Otake Katsuto
Polymer foam
Carbon dioxide
Alcohol
O
431Recovery of carbon fibers from hydrothermal decomposition of resins in carbon fiber reinforced plastics in the presence of hydrogen peroxide.
(Chuo U.) *(Stu)Yokotsuka Kosuke, (Kanazawa U.) (Reg)Sakabe Junichi, (Chuo U.) (Reg)Funazukuri Toshitaka
CFRP
hydrothermal
hydrogen peroxide
O
465Chemical recycling of polylactic acid by hydrothermal treatment
(Shizuoka U.) *(Stu)Kishita Mikitaka, (Maxell) Sun Yin, (Reg)Goto Toshiharu, (Shizuoka U.) (Reg)Sako Takeshi, (Reg)Okajima Idzumi
polylactic acid
biodegradable plastic
hydrothermal treatment
O
484Combination of hot compressed water extraction and membrane separation for valuable materials recovery from microalgae extraction residue
(U. Tokyo) *(Int)Li Fei, (Reg)Akizuki Makoto, (Takenaka) (Reg)Kawajiri Satoshi, (U. Tokyo) (Reg)Oshima Yoshito
Hot compressed water
Membrane separation
Microalgae residue
O
558Utilization of marine biomass by hydrothermal treatment
(Shizuoka U.) *(Stu)Yamauchi Takeshi, (Reg)Okajima Idzumi, (Reg)Sako Takeshi
marine biomass
superheated steam
bio-gas
O
568Preparation of ionic liquid impregnated porous material using supercritical fluid method
(Hiroshima U.) *(Stu)So Ryosuke, (Reg)Ushiki Ikuo, (Reg)Kihara Shin-ichi, (Reg)Takishima Shigeki
Supercritical carbon dioxide
Porous material
Ionic liquid
O
569Effects of reaction conditions on defluorination from perfluorooctanoic acid (PFOA) in an aqueous sodium hydroxide solution under hydrothermal conditions
(Chuo U.) *(Stu)Sekiguchi K., (Stu)Endo J., (Kanazawa U.) (Reg)Sakabe J., (Chuo U.) (Reg)Funazukuri T.
Hydrothermal
Defluorination
Perfluorooctanoic acid
O
574Measurement and modeling of adsorption equilibria of ester VOCs in supercritical CO2 for regeneration of high-performance activated carbon
(Hiroshima U.) *(Stu)Ueno Yuji, (Reg)Ushiki Ikuo, (Reg)Kihara Shin-ichi, (Reg)Takishima Shigeki, (Dai-Dan) (Reg)Ito Yasuyuki, (Tohoku U.) (Reg)Inomata Hiroshi
Supercritical carbon dioxide
Activated carbon
Adsorption
O
596Role of Plasticizers in Supercritical Carbon Dioxide Foaming of Polyvinyl Chloride
(Tokyo U. Sci.) *(Stu)Yoshida Naruhide, (Reg)Matsukawa Hiroaki, (Reg)Murakami Yuya, (Reg)Shono Atsushi, (Reg)Otake Katsuto
Polymer foam
Carbon dioxide
Polyvinyl Chloride
O
633Formation of drug-drug cocrystal with CO2 molecules
(Tokyo Tech) *(Stu)Tanikoshi Minami, (Stu)Akiyama Seika, (Stu)Hao Yingquan, (Reg)Orita Yasuhiko, (Reg)Shimoyama Yusuke
supercritical CO2
antibacterial molecular crystal
CO2-driven phase transition
O
648Development of polymer microcoating method for lactoferrin
(Fukuoka U.) *(Stu)Ono Kento, Nakamura Miyuki, (Reg)Sharmin Tanjina, (Reg)Aida Taku, (Reg)Mishima Kenji
PGSS
lactoferrin
enteric polymer
O
675Polyvinyl alcohol synthesis by radical polymerization in subcritical water: Effect of reaction conditions on degree of polymerization
(Shinshu U.) *(Stu)Ishii Sumito, (Reg)Osada Mitsumasa, Kosaka Yasuhiro, (JAMSTEC) Deguchi Shigeru
Subcritical water
Radical polymerization
Green chemistry
O
676Preparation of hypoallergenic protein by high-temperature and high-pressure water treatment
(Shinshu U.) *(Stu)Shintani Kenta, (TUAT) Okon Kazunobu, Yoshida Tadashi, (Shinshu U.) (Reg)Osada Mitsumasa
Subcritical water
Protein
Hypoallergenic
O
679Prediction of organic compound solubility in subcritical water by machine learning
(Shinshu U.) *(Stu)Tamura Kotaro, (Reg)Shimada Iori, (Reg)Fukunaga Hiroshi, (Reg)Takahashi Nobuhide, (Reg)Osada Mitsumasa
Solubility
Subcritical water
Machine learning
O
685Supercritical fluid deposition of Cu for sub-millimeter-scale features
(U. Tokyo) *(Stu)Huang Yuyuan, (Reg)Deura Momoko, (Tokyo Tech) (Reg)Shimoyama Yusuke, (U. Tokyo) (Reg)Shimogaki Yukihiro, (Reg)Momose Takeshi
supercritical fluid deposition
sub-millimeter-scale features
O
707Measurement and correlation of diffusion coefficients of benzene in mixture of carbon dioxide and ethanol under high pressure conditions by Taylor dispersion method
(Chuo U.) *(Stu)Onodera N., (Kanazawa U.) (Reg)Sakabe J., (Chuo U.) (Reg)Funazukuri T., (Shizuoka U.) (Reg)Kong C. Y.
mixture of CO2 and organic solvent
diffusion coefficient
benzene
O
708SurfaceSurface modification of nano-TiO2 with para-amino benzoic acid in supercritical carbon dioxide for preventing aggregation of nanoparticles modification of nano-TiO2 with para-amino benzoic acid in supercritical carbon dioxide for preventing aggregation of nanoparticles
(Kanazawa U.) *(Int)Agustin Anggi Regiana, (Reg)Tamura Kazuhiro
TiO2 nanoparticles
surface modification
supercritical carbon dioxide
O
725Crystallinity Control of Amorphous Microparticles of Griseofulvin by Temperatures of Crystallization Fields in Rapid Expansion of Supercritical Solutions Using Carbon Dioxide
(Kanazawa U.) *(Stu)Yano N., (Reg)Sakabe J., Kawanishi T., (Reg)Uchida H.
RESS
Griseofulvin
Amorphous microparticles
O
756Elucidation of the hydrothermal gelation mechanism of cellulose nanofiber dispersion
(Shinshu U.) *(Stu)Naruke Yudai, (Reg)Shimada Iori, (Reg)Fukunaga Hiroshi, (Reg)Takahashi Nobuhide, (Reg)Osada Mitsumasa
Cellulose
Nanofiber
Hydrothermal gelation
O
759Application of CO2-Assisted Polymer Compression Method to Polylactic Acid
(AIST) (Reg)Aizawa Takafumi
CO2-assisted polymer compression
polylactic acid
crystallinity
O
760Proposal for the particle design guidelines by supercritical anti-solvent recrystallization (SAS) based on flow states in a Y-type micro device
(Kanazawa U.) *(Stu)Hada T., Kasahara N., (Reg)Sakabe J., Kawanishi T., (Reg)Uchida H.
SAS-MD
Microparticles
Computational Fluid Dynamics Simulation
O
798Effect of Supercritical Fluid Mixing on Adjustment of Molecular Weight Distribution of Elastomers
(Hiroshima U.) *(Stu)Yamamoto Moriyasu, (Reg)Kihara Shin-ichi, (Reg)Ushiki Ikuo, (Reg)Takishima Shigeki, (Bridgestone) Muneshige Kenji, Isaka Yasuhiro, Kondo Yoichiro
supercritical fluids
mixing
molecular weight distribution
O
805Analysis of amide compound reaction in subcritical water by machine learning
(Shinshu U.) *(Stu)Tsuboi Hibiki, (Reg)Shimada Iori, (Reg)Fukunaga Hiroshi, (Reg)Takahashi Nobuhide, (Reg)Osada Mitsumasa
Subcritical water
Machine learning
Protein
O
812Effects of reaction conditions on defluorination from difluorobenzene in an aqueous sodium hydroxide solution under hydrothermal conditions
(Chuo U.) *(Stu)Endo Jun, (Kanazawa U.) (Reg)Sakabe Junichi, (Chuo U.) (Reg)Funazukuri Toshitaka
difluorobenzene
hydrothermal
defluorination
O

List of received applications (By topics code)

List of received applications
SCEJ 52nd Autumn Meeting (Okayama, 2021)

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Most recent update: 2022-01-31 16:50:01
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