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SCEJ 80th Annual Meeting (Tokyo, 2015)

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Hall F, Day 3

Most recent update: 2015-03-05 09:42:37
TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Materials engineering & interfacial phenomena
(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)

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Most recent update: 2015-03-05 09:42:37
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