SCEJ

SCEJ 80th Annual Meeting (Tokyo, 2015)

Session programs

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Materials engineering & interfacial phenomena

E201-E209, E222-E225, E301-E324, F301-F325

Most recent update: 2015-03-05 09:42:37
TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Hall E, Day 2
(9:00–10:00) (Chair: Umakoshi H.)
9:009:20E201Effect of Mixed Organic Corrosion Inhibitor to Prevent Galvanic Corrosion of Aluminum
(Hiroshima U.) *Yabuki A., Shiraiwa T.
corrosion inhibitor
galvanic corrosion
adsorption
12-a48
9:209:40E202Control of orientation of functional groups in amphiphilic polymer during dip-coating to prepare anti-fouling surfaces
(Kobe U.) Yamamoto Shunsuke, Kitahata Shigeru, Simomura Ayane, Tokuda Kaya, Nishino Takashi, *Maruyama Tatsuo
surface functionalization
anti-fouling
coating
12-a225
9:4010:00E203Kinetic study and modeling of capillary condensation in mesoporous silica
(Kyoto U.) *Hiratsuka Tatsumasa, Tanaka Hideki, Miyahara Minoru
capillary condensation
mesoporous silica
pore size distribution
12-a285
10:0010:20Break
(10:20–11:00) (Chair: Yabuki A.)
10:2010:40E205Formation of bone-like apatite on modified-Ti surface in the presence of protein
(Kitami Inst. Tech.) *Kanno Toru, Yamauchi Takeshi, Horiuchi Jun-ichi
surface-modifed titanium
apatite
protein
12-m600
10:4011:00E206Characterization of supported phospholipid bilayers formed onto a porous alumina substrate
(Kobe U.) *Saeki D., Sako F., Matsuyama H.
supported phospholipid bilayer
porous alumina
immobilization
12-a724
(11:00–12:00) (Chair: Maruyama T.)
11:0011:20E207Evaluation of Amino Acid Polymerization at the Liposome Membrane in Aqueous Phase
(Osaka U.) Kaneko Yoshinori, Ishigami Takaaki, *Okamoto Yukihiro, Suga Keishi, Umakoshi Hiroshi
Membranome
Amino Acid Polymerization
Liposome
12-a788
11:2011:40E208Characterization of Micro-Membrane Properties and Its Application for Partitioning and Conversion of Hydrophobic Molecules
(Osaka U.) *Iwasaki Fumihiko, Suga Keishi, Okamoto Yukihiro, Umakoshi Hiroshi
Membranome
Micro-Membrane Properties
Molecular Conversion
12-a796
11:4012:00E209Mechanism of chiral recognition at the interface of liposome membrane and its application
(Osaka U.) *Ishigami T., Suga K., Okamoto Y., Umakoshi H.
membranome
chiral recognition
amino acid
12-a805
(16:00–17:20) (Chair: Shono A.)
16:0016:20E222Encapsulation of various materials into hydrophobic resin particles with high efficiency using superamphiphobic substrates
(Kagoshima U.) *Takei Takayuki, Terazono Keita, Araki Kiyotaka, Ohzuno Yoshihiro, (Kyoto U.) Hayase Gen, Kanamori Kazuyoshi, Nakanishi Kazuki, (Kagoshima U.) Yoshida Masahiro
capsule
high encapsulation efficiency
superamphiphobic substrate
12-f261
16:2016:40E223Low-temperature curing latent catalyst development by microencapsulation of aluminum complexes
(Dexerials) *Kamiya K., (Utsunomiya U.) Suzuki N.
aluminum complex
microcapsule
curing catalyst
12-f274
16:4017:00E224Fundamental properties and self-healing ability of microcapsule which gives material self-repair function
(Kagoshima U.) *Yoshida M., Fukushima M., Hirose U., Ohzuno Y., Takei T., (Miyakonojo NCT) Kiyoyama S., (U. Miyazaki) Shiomori K.
self-healing
microencapsulation
TDCB test
12-f547
17:0017:20E225The role of nuclei for the formation of silver nanoparticles in hydrothermal process
(Yamagata U.) Suzuki Takanari, Yamamoto Toshihiko, *Shishido Masahiro
silver nanoparticles
cluster
aggregation
12-d881
Hall E, Day 3
(9:00–10:00) (Chair: Yamaguchi T.)
9:009:20E301Manufacture of enzyme immobilization carrier with enzyme modification function in organic media
(Kitakyushu Nat. Col. Tech) *Gotou Muneharu, (U. Kitakyushu) Uezu Kazuya, (Ariake Nat. Col. Tech) Okobira Tadasi, (Saga U.) Kawakita Hidetaka
Enzyme
Immobilization
Polymer brush
12-j333
9:209:40E302Solid electrolyte function of a polyethylene porous membrane filled with Side-Chain Crystalline Block co-polymer by using its crystalline supramolecular interaction
(Fukuoka U.) *Yao S., Sano Y., Nakano R., Sekiguchi H.
Filling Membrane
Side-Chain Crystalline Block Co-Polymer
Supramolecular Interaction
12-j708
9:4010:00E303Kinetics study of CO2 capture-release process by thermal responsive microgel particles
(Kyushu U.) *Yue Mengchen, Hoshino Yu, Miura Yoshiko
microgel particles
CO2 capture release
film
12-j858
(10:00–11:00) (Chair: Hoshino Y.)
10:0010:20E304New immobilization method of enzyme on microchannel surface
(Sojo U.) *Sakoguchi A., Fujita S., Takahashi E., Kusakabe K.
immobilized enzyme
microchannel
enzymatic reaction
12-j862
10:2010:40E305Fabrication of Red Blood Cell-like micro gel beads
(U. Toyama) *Yamamoto T., Wakatuki S., Sanae H., Nakamura M.
Red blood cell
Micro gel beans
Coffee stain phenomenon
12-m595
10:4011:00E306Transient morphology of a rapidly gelling calcium alginate solution to spherical geometry.
(Fukushima NCT) *Sato Jun, Igarashi Tatsuya, Endo Yuya, Kato Yuna, Koizumi Ami, Goto Saki, Hiruta Kazuki, Yamakawa Takaaki, Kurumada Ken-ichi
transient morphology
rapidly gelling solution
spherical geometry
12-e240
(11:00–11:40) (Chair: Ohashi H.)
11:0011:20E307Preparation of Metal Oxide Nanoparticle/Hydrogel Composite Material and its Characterization
(Hiroshima U.) *Gotoh T., Semmoto K., Miki S., Sakohara S.
hydrogel
nanoparticle
composite material
12-e757
11:2011:40E308Relationship Between Protein Recognition of Synthetic Nanogel and Refolding of Denatured Ptoein
(Kyushu U.) *Nakamoto Masahiko, Hoshino Yu, Miura Yoshiko
NIPAm nanogel
protein refolding
12-e825
(11:40–12:00) (Chair: Yoshida M.)
11:4012:00E309[The SCEJ Award for Outstanding Young Researcher] Development of Novel Functional Hydrogels for Bioengineering and Biomedical Applications
(Kagoshima U.) Takei Takayuki



12-e622

(13:00–14:00) (Chair: Ono T.)
13:0013:20E313The effect of counter ion on soap-free emulsion polymerization
(Nagoya U.) *Yamamoto Tetsuya, Kawaguchi Kan, Yokoyama Taichi
Soap-free emulsion polymerization
particle size
counter ion
12-c54
13:2013:40E314Organic silica coating of hydrophilic nanoparticles surface in amphiphilic solvent
(Fukushima NCT) *Yamauchi N., Igarashi T., Konishi Y., Niitsuma Y., Kurumada K.
organic alkylated silica
amphiphilic solvent
hydrophilic surface
12-c342
13:4014:00E315Microreactor flow synthesis of ZIF-8 particles with controlled size and adsorption properties
(Kyoto U.) *Ohsaki Shuji, Takada Kento, Watanabe Satoshi, Tanaka Hideki, Mae Kazuhiro, Miyahara Minoru
Microreactor
Zeolitic imidazolate framework-8
Particle size and shape control
12-c351
(14:00–15:00) (Chair: Kanamori T.)
14:0014:20E316Preparation of a novel nanoparticles with framework consisting of disulfide bond
(Kyushu U.) *Matsune H., Nakagawa T., Takenaka S., Kishida M.
silica
disulfide bond
functional nanoparticle
12-c746
14:2014:40E317Synthesis of LiMn2O4 Nanoparticles by RF Thermal Plasma
(Kyushu U.) *Tanaka M., Kageyama T., Okamoto D., Sone H., Watanabe T.
Thermal plasma
Li-based nanoparticle
Metal oxide nanoparticle
12-c538
14:4015:00E318Gas-phase generation of moble metal-NiO nanorod hybrid nanoparticles.
(AIST) *Hirasawa Makoto, Koga Kenji
hybrid nanoparticles
oxidation induced phase separtion
laser ablation
12-d68
(15:00–16:00) (Chair: Tamaki T.)
15:0015:20E319Development of catalyst for steam reforming of methane by applying partial reduction
(Toshiba) *Essaki Kenji, Osada Norikazu, Fukasawa Takayuki
steam reforming
catalyst
partial reduction
12-d151
15:2015:40E320Visible light-Induced Activation of Molecular Oxygen on Platinum Nanoparticles Supported on Tantalum Oxides
(Osaka U.) *Shiraishi Y., Sakamoto H., Ohara T., Hirai T.
photocatalysis
platinum nanoparticles
visible light
12-d312
15:4016:00E321Effect of zigzag and armchair site of polycyclic aromatic hydrocarbon on soot formation
(Tohoku U.) *Ono Kiminori, Matsukawa Yoshiya, Dewa Kazuki, Watanabe Aki, Takahashi Kaname, Saito Yasuhiro, Matsushita Yohsuke, Aoki Hideyuki, (ASAHI CARBON) Era Koki, Aoki Takayuki, Yamaguchi Togo
Soot
Polycyclic aromatic hydrocarbon
particle size distribution
12-d617
(16:00–17:00) (Chair: Shioi A.)
16:0016:20E322Synthesis of MFI-type Zeolites with Controlled Pore Structure Using Intercalated Octosilicate Precursors
(Osaka Pref. U.) *Iwasaki T., Nakanishi K., Watano S.
silicalite-1
TS-1
intercalation
12-i603
16:2016:40E323Synthesis and magnetic properties of FePt nanocomposite magnets via self-assembled block copolymer templates
(Toyota Central R&D Laboratories) *Wakayama Hiroaki, Yonekura Hirotaka
self-assembly
block copolymer
nanocomposite
12-i639
16:4017:00E324Development of Carbon-free Catalyst Layer using Porous PtFe Nanocapsule for Polymer Electrolyte Fuel Cells
(Kanagawa Academy of Sci. and Tech./Tokyo Tech) *Kuroki Hidenori, Tamaki Takanori, Kitamoto Yoshitaka, Yamaguchi Takeo
Nanocapsule
Catalyst
Polymer Electrolyte Fuel Cell
12-i722
Hall F, Day 3
(9:00–10:20) (Chair: Tsuji Y.)
9:009:20F301Continuous synthesis of metal-organic framework by aerosol-assisted process
(Hiroshima U.) *Kubo Masaru, Saito Teruaki, Shimada Manabu
Porous materials
Nanoparticles
Spray-drying
12-k177
9:209:40F302Hydrothermal synthesis of graphene quantum dot and their photoluminescence properties
(Hiroshima U.) *Ogi T., Aishima K., Okuyama K., (Kuraray) Iwasaki H.
graphene
hydrothermal reaction
luminescent
12-k434
9:4010:00F303Soluble Support-Assisted Liquid Phase Peptide Synthesis
(TUAT) *Okada Yohei, Kamiya Hidehiro, Chiba Kazuhiro
soluble support
liquid phase synthesis
peptide
12-k573
10:0010:20F304Aerosol Synthesis of Nanostructured Carbon Particles from Phenolic Resin via Spray Pyrolysis Method
(Hiroshima U.) *Balgis Ratna, Ogi Takashi, Mori Takahiro, (Noritake) Anilkumar Gopinathan, (Hiroshima U.) Okuyama Kikuo
zeta potential
phenolic resin
nanostructured carbon particles
12-k598
10:2010:40Break
(10:40–12:00) (Chair: Kubo M.)
10:4011:00F306Rheology simulation of bimodal nano-particle dispersions at high Peclet numbers
(U. Tokyo) *Koike O., Uemura A., Tatsumi R., Yamaguchi Y.
rheology
bimodal dispersion
direct numerical simulation
12-l802
11:0011:20F307Dynamic behavior of a water droplet on collision onto smooth water-repellent solid surface -What aspect of the motion reflects the repellency?-
(Fukushima NCT) Kurumada Ken-ichi
water-repellent solid surface
dewetting kinematics
interfacial free energy
12-i360
11:2011:40F3083D Additive Printer for Arbitrarily Surface
(Yamagata U.) Hachiya Takashi, (Kanazawa U.) *Taki Kentaro, (Yamagata U.) Ito Hiroshi, Furukawa Hidemitsu
3D printer
additive manufacturing
UV curable resin
12-h266
11:4012:00F309Relationship between spatial structure of nanoparticles in polymer composite thin films and thermal dewetting behavior
(Tohoku U.) *Kubo M., Kato T., Yang L., (Toyama Pref. U.) Sugioka K., (Tohoku U.) Tsukada T., Takami S., Adschiri T.
composite thin film
spatial structure of nanoparticles
thermal dewetting
12-h390

(13:00–14:00) (Chair: Doki N.)
13:0013:20F313Comparison stdy of crystallization of lysozyme with its fibril formation
(Okayama U.) *Shimanouchi T., Shirahige Y., Kimura Y.
lysozyme
amyloids
crystallization
4-g779
13:2013:40F314Influence of Experimental Condition on Supercooling Temperature of Disodium Hydrogen Phosphate Dodecahydrate Melt
(Waseda U. RISE) Watanabe Yasuyuki
Supercooling Temperature
Disodium Hydrogen Phosphate
Dodecahydrate Melt
12-g58
13:4014:00F315One dimensional analysis of melt crystallization
(U. Hyogo) *Fukui Keisuke, Fujikawa Takuto, Yamamoto Takuji, Maeda Kouji, (N. EVS) Kuramochi Hidetoshi
melt crystallization
crystal purity
growth rate
12-g110
(14:00–15:20) (Chair: Kohori F.)
14:0014:20F316Effect of High Pressure on charge-discharge cycles of rechargeable batteries
(U. Hyogo) *Maeda Kouji, Arafune Koji, Itoh Kazuhiro, Yamamoto Takuji, Fukui Keisuke, (NIES) Kuramochi Hidetoshi
High Pressure
Battery
Crystallization
12-g163
14:2014:40F317Effect of sample volume on metastable zone width
(Iwate U.) Kubota Noriaki
Crystallization
Nucleation
Metastable zone width
12-g210
14:4015:00F318Influence of mixing by reciprocal motion on the polymorphic formation of L-Glutamic acid
(DAIICHI SANKYO CO.,LTD) *Suda Yukiko, Ariga Atsushi, (Iwate U.) Doki Norihito, Shimizu Kenji
polymorph
L-Glutamic acid
reciprocal motion mixing
12-g212
15:0015:20F319In-situ monitoring of the growth of silicon whiskers formed in the zinc reduction reaction of SiCl4
(TUAT) Inasawa S.
silicon whiskers
zinc reduction reaction
VLS mechanism
12-m380
(15:20–16:20) (Chair: Maeda K.)
15:2015:40F320Detection of nucleation by Dynamic Light Scattering
(DAIICHI SANKYO CO.,LTD) *Suda Yukiko, Ariga Atsushi, (Iwate U.) Doki Norihito, Shimizu Kenji
Dynamic Light Scattering
nucleation
particle
12-g214
15:4016:00F321Estimation of growth rate parameters for numerical simulation of anti-solvent crystallization
(Eisai) *Kodera T., (JGC) Kobari M.
Anti-solvent crystallization
Numerical simulation
Growth rate
12-g416
16:0016:20F322Development of simultaneous control method of crystal polymorphism and suspeded crystal shape
(TUAT) *Wada S., Kudo S., Takiyama H.
Crystallization
Polymorphism
Morphology
12-g470
(16:20–17:20) (Chair: Hirasawa I.)
16:2016:40F323Quaternary phase diagram for production of cocrystalline particles by solution method
(TUAT) *Kudo S., Takiyama H.
Cocrystal
crystallization
phase diagram
12-g546
16:4017:00F324Effect of solvent composition on the crystallization of ergosterol mono hydrate
(Osaka City U.) *Igarashi Koichi, Nakahashi Kazuya, Ooshima Hiroshi
crystallization
hydrate
solvent composition
12-g736
17:0017:20F325Dissolution Mechanism of Salicylic Acid / Nicotinamide Cocrystals in Water
(NIT, Suzuka Col.) *Funakoshi K., Imanaga C., Ohtani S.
cocrystal
dissolution mechanism
surface composition
12-g737

Technical program
SCEJ 80th Annual Meeting (Tokyo, 2015)

© 2015 The Society of Chemical Engineers, Japan. All rights reserved.
Most recent update: 2015-03-05 09:42:37
For more information contact Organizing Committee, SCEJ 80th Annual Meeting (Tokyo, 2015)
E-mail: inquiry-80awww3.scej.org
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