Japanese page
SCEJ

SCEJ 82nd Annual Meeting (Tokyo, 2017)

Hall and day program : Hall E

The abstracts can be viewed by clicking the Paper IDs.
The ID/PW printed on the PROGRAM book are required.

Hall E(Kyoshitsu-to 4F 404)

Hall E, Day 1 | Hall E, Day 2 | Hall E, Day 3
12 | K-2 | 12

TimePaper
ID
Title / AuthorsKeywordsTopic codeAck.
number
Hall E(Kyoshitsu-to 4F 404), Day 1(Mar. 6)
12. Materials engineering & interfacial phenomena
(13:00–13:20) (Chair: Yamaguchi Takeo, Kamiya Hidehiro)
13:0013:20E113[The SCEJ Award for Outstanding Research Achievement] Design of Chemical Systems with Spatiotemporal Pattern Formation under Nonequilibrium
(Doshisha U.) (Ful)Shioi Akihisa
The SCEJ Award for Outstanding Research Achievement
12-a534
(13:20–14:00) (Chair: Tanaka Hideki, Oshiba Yuhei)
13:2013:40E114Numerical simulation of CLIP system
(Kanazawa U.) (Ful)Taki Kentaro
3D printer
photopolymerization
simulation
12-a11
13:4014:00E115Evaluation of localized hydrophilicity in the micropores of hydrophobic titanosilicates
(Yokohama Nat. U.) *(Ful)Inagaki Satoshi, Kaneda Midori, (AIST) (Ful)Endo Akira, (Yokohama Nat. U.) Kubota Yoshihiro
titanosilicate
supermicropore
hydrophilicity
12-a22
(14:00–14:40) (Chair: Hoshino Yu, Nagamine Shinsuke)
14:0014:20E116Shell Formation Mechanism of SiO2@Au Core-Shell Particles with in-line optical measurement
(Kyoto U.) *(Stu·APCE)Ohsaki Shuji, (Ful·PCEF)Hosokawa Junji, (Ful)Watanabe Satoshi, (Erlangen U.) Braunschweig Bjoern, Klupp Taylor Robin, (Kyoto U.) (Ful)Miyahara Minoru
SiO2@Au core-shell particles
Shell formation mechanism
in-line optical measurement
12-a257
14:2014:40E117Kinetic modeling of capillary condensation in ordered mesoporous silica materials
(Kyoto U.) *(Stu·PCEF)Hiratsuka Tatsumasa, (Ful)Tanaka Hideki, (Ful)Miyahara Minoru
rate constant
transition state theory
molecular simulation
12-a430
(15:00–15:20) (Chair: Miura Yoshiko, Kishida Masahiro)
15:0015:20E119[The SCEJ Award for Outstanding Young Researcher] Development of Bioseparating and Biosensing Materials using Biomolecular Recognition
(Fukuoka U.) (Ful)Seto Hirokazu
The SCEJ Award for Outstanding Young Researcher
12-a563
(15:20–16:00) (Chair: Taki Kentaro, Kuroki Hidenori)
15:2015:40E120Design of Vesicle Membrane Surface as a Platform for Organic Synthesis in Water
(Osaka U.) *(Stu)Iwasaki F., (Ful)Suga K., (Ful)Okamoto Y., (Ful)Umakoshi H.
membranome
membrane property
interfacial reaction
12-a607
15:4016:00E121Evaluation of Molecular Behavior of Chlorophyll a on Self-Assembled Membranes and Its Application for Light Energy Conversion
(Osaka U.) *(Stu)Taguchi Shogo, (Ful)Suga Keishi, (NIT Nara) (Ful)Hayashi Keita, (Osaka U.) (Ful)Okamoto Yukihiro, (NIT Nara) (Ful)Nakamura Hidemi, (Osaka U.) (Ful)Umakoshi Hiroshi
liposome
chlorophyll a
12-a635
(16:00–17:00) (Chair: Suga Keishi, Tamaki Takanori)
16:0016:20E122Difference between gate adsorption behavior of two metal-organic frameworks
(Kyoto U.) *(Stu·PCEF)Hiraide Shotaro, (Stu·PCEF)Okunishi Maho, (Ful)Tanaka Hideki, (TUAT) Kondo Atsushi, Maeda Kazuyuki, (Kyoto U.) (Ful)Miyahara Minoru
metal-organic framework
free energy analysis
gate adsorption
12-a661
16:2016:40E123Flow Chemical Process with Polymer Gel Monolith
(Kyushu U.) *(Ful)Miura Yoshiko, (Stu)Matsumoto Hikaru, (Fukuoka U.) (Ful)Seto Hirokazu, (Kyushu U.) (Ful)Hoshino Yu
Monolith
Gel
Organic Chemistry
12-a730
16:4017:00E124Kinetic study for estimate of supersaturation of amyloid beta protein
(Okayama U.) *(Ful)Shimanouchi Toshinori, (Stu)Okamura Sayuri, (Ful)Kimura Yukitaka
protein
accumulation
membrane undulation
12-a794
Hall E(Kyoshitsu-to 4F 404), Day 2(Mar. 7)
K-2 [International Symposium]
 Reaction Engineering of CVD: iCVD and Emerging Processes, Applications, and Fundamental Understanding
(9:00–12:00) (Chair: Noda Suguru)
9:009:40E201[Invited lecture] Analysis and Design of CVD/ALD processes Based on Chemical Reaction Engineering
(U. Tokyo) (Ful)Shimogaki Yukihiro
Chemical Reaction Engineering
CVD
Process Design
K-2838
9:4010:20E203[Invited lecture] Cat-CVD and Its Development to Various Fields
(JAIST) Matsumura Hideki
Thin Film Technology
Cat-CVD
Cat-doping
K-282
10:2010:40E205[Requested talk] Reaction Mechanism and Growth-rate Distribution in Metal-Organic Vapor-Phase Epitaxy of GaN
(U. Tokyo) *(Ful)Sugiyama Masakazu, (Ful)Momose Takeshi, (Politecnico Di Milano) Ravasio Stefano, Cavallotti Carlo, (U. Tokyo) (Ful)Shimogaki Yukihiro
GaN
MOVPE
reaction mechanism
K-2324
10:4011:00E206[Requested talk] Plasma decomposition of hexamethyldisiloxane, oxygen, and ammonia for coating a polymer substrate with silica-based film
(Kyoto U.) (Ful)Kawase M.
Plasma CVD
silica-based gas-barrier film
HMDSO
K-2740
11:0011:20E207[Requested talk] B-atom release from metal wires boronized by non-explosive boron compounds
(Shizuoka U.) Umemoto Hironobu
chemical vapor deposition
hot wire
boron atoms
K-217
11:2011:40E208[Requested talk] Surface reaction design for silicon epitaxial growth based on the reactor simulation
(Yokohama Nat. U.) *(Ful)Habuka Hitoshi, Watanabe Toru, Yamada Ayami, Saito Ayumi, Sakurai Ayumi
silicon epitaxial growth rate
trichlorosilane
silicon hydride
K-214
11:4012:00E209[Requested talk] CVD and ALD precursor candidates for transition metal film deposition
(Gas-Phase Growth) Machida Hideaki
Transition metal film
Amidinate precursor
Ethyl derivatives
K-2157
(13:00–15:20) (Chair: Momose Takeshi)
13:0013:40E213[The SCEJ Award for Outstanding Asian Researcher and Engineer] Vapor-phase deposition of functional polymer films and their applications
(KAIST) Im Sung Gap
initiated chemical vapor deposition
functional polymer films
electronic, separation, and biomedical applications
K-226
13:4014:20E215[Invited lecture] Application of Cat-CVD technology to crystalline silicon solar cells
(JAIST) *Ohdaira Keisuke, Trinh Cham Thi, Oikawa Takafumi, Seto Junichi, Koyama Koichi, Matsumura Hideki
catalytic chemical vapor deposition
crystalline Si solar cell
passivation
K-285
14:2014:40E217[Requested talk] Synthesis of carbon nitride using microwave plasma CVD
(Gifu U.) *Tanaka Ippei, (Chiba Inst. Tech.) Sakamoto Yukihiro
plasma
CVD
carbon nitride
K-2477
14:4015:00E218[Requested talk] PEALD-TiO2 films synthesized via CCRF discharges
(Tokyo Electron Yamanashi) Iwashita Shinya
TiO2
PEALD
deposition
K-2217
15:0015:20E219[Requested talk] Surface coating of carbon nanotubes by aerosol process with plasma enhanced chemical vapor deposition
(Hiroshima U.) *(Ful)Shimada Manabu, (Ful)Kubo Masaru, (Hiroshima U./ITS Surabaya) (Ful)Kusdianto K.
PECVD
carbon nanotube
dry coating process
K-2396
(15:40–17:20) (Chair: Machida Hideaki)
15:4016:00E221[Requested talk] Novel catalytic property of structured catalyst prepared by wet-type chemical deposition
(Shizuoka U.) (Ful)Fukuhara Choji
Electroless plating
Structured catalyst
Hydrogen production
K-2198
16:0016:20E222[Requested talk] Thin film deposition in supercritical fluids - impact of solvent capability on deposition characteristics
(U. Yamanashi) (Ful)Kondoh Eiichi
supercritical fluids
solvent capability
thin film deposition
K-2184
16:2016:40E223[Requested talk] Hot-filament CVD growth of low-resistivity diamond for power device applications
(AIST) Ohmagari Shinya
hot-filament CVD
diamond
low-resistivity
K-2219
16:4017:00E224[Requested talk] Effects of N2O Addition during the Growth of ZnO Films by Chemical Vapor Deposition Using a Catalytic Reaction
(Nagaoka U. Tech.) Tajima Ryouichi, Watanabe Koudai, Ono Shotarou, Kato Takahiro, *Yasui Kanji
chemical vapor deposition
catalytic reactions
ZnO films
K-2112
17:0017:20E225[Requested talk] Engineering Carbon Nanotube Synthesis: Catalyst Screening, Identification of Reactive Species, and Rational Reactor Design
(Waseda U.) (Ful)Noda Suguru
carbon nanotubes
chemical vapor deposition
rational design and development
K-219
Hall E(Kyoshitsu-to 4F 404), Day 3(Mar. 8)
12. Materials engineering & interfacial phenomena
(9:00–10:20) (Chair: Kurumada Kenichi, Kishida Muneki)
9:009:20E301Melt crystallization of binary mixture of fatty acids as model biofuel
(U. Hyogo) *(Ful)Yamamoto Takuji, (Ful)Maeda Kouji, (Ful)Itoh Kazuhiro, (Ful)Fukui Keisuke, (NIES) (Ful)Kuramochi Hidetoshi
effective distribution factor
interfacial solute distribution theory
melt crystallization
12-g148
9:209:40E302Development of novel LiNixCoyMnzO2 cathode material with Porous particle structure.
(Sumitomo Metal Mining) *(Cor)Suganuma S., (Cor)Hayashi T., (Cor)Aida T., (Cor)Ushio R.
cathode
battery
LNCMO
12-g197
9:4010:00E303The preparation and properties of Ag-coated Cu powder
(Sumitomo Metal Mining) *(Cor)Yamaoka Naoki, (Cor)Kaneko Isao
electroless plating
copper powder
Ag coating
12-g284
10:0010:20E304Effect of ethyleneamines on synthesis of ultrafine nickel powder by hydrazine reduction.
(Sumitomo Metal Mining) *(Cor)Tanaka Hiroyuki, (Cor)Kumagai Yuki, (Cor)Ishii Junji, (Cor)Murakami Shingo, (Cor)Matsumura Yoshiaki, (Cor)Yukinobu Masaya
nickel powder
hydrazine reduction
ethyleneamine
12-g406
(10:20–11:20) (Chair: Yamamoto Takuji)
10:2010:40E305Influence of Thermal History on Nucleation Properties of Calcium Chloride Hexahydrate Added Strontium Chloride.
(Waseda U.) *(Ful)Watanabe Yasuyuki, (Ful)Hirasawa Izumi
Salt Hydrate
Nucleating Agent
Thermal History
12-g415
10:4011:00E306Production method of pharmaceutical microcrystal by controlling solubility with sodium chloride
(Mitsubishi Tanabe Pharma) *(Ful)Kishida Muneki, (Osaka City U.) (Ful)Igarashi Koichi, (Kansai Chem. Eng.) (Ful)Ooshima Hiroshi
microcrystal
solubility control
additive
12-g446
11:0011:20E307Acceleration factor for crystallization immobilization of calcium moiety in leachate from landfilled soil
(NIT Fukushima) *(Ful)Kurumada Kenichi, Ogata Yuusuke, (Himeyuri Total Work) Yamaguchi Hiroyuki, Hongo Kazuhiro
acceleration factor
crystallization mobilization
landfill leachate
12-g506
(11:20–12:00) (Chair: Shimanouchi Toshinori, Yamaoka Naoki)
11:2011:40E308Semi-batch cooling crystallization of K-alum
(Niigata U.) *(Ful·APCE)Mikami Takashi, Kaizu Rika, (Stu)Sasaki Kazuma
Semi-batch cooling
Feeding policy
Monodisperse crystals
12-g550
11:4012:00E309Analysis of Crystallization through Oiling-out Phenomenon
(TUAT) *(Ful)Takiyama Hiroshi, (Stu)Okude Ai, (Ful)Kudo Shoji
Crystallization
Oiling-out
Phase separation
12-g581
(13:00–14:00) (Chair: Mikami Takashi, Tanaka Hiroyuki)
13:0013:20E313The evaluation of crystallization difficulty of pharmaceutical compounds by using critical supersaturation (Sc)
(Shionogi) *(Cor)Nagamatsu Daiki, (Cor)Sato Norihito, (TUAT) (Ful)Takiyama Hiroshi
Crystallization difficulty
Critical Supersaturation
Pharmaceutical compounds
12-g621
13:2013:40E314Creation of nano-sized particles by crystallization
(Waseda U.) *(Ful)Hirasawa Izumi, (Stu)Kindaichi Satori, (Stu)Makita Maiko, Takebe Akinobu, Tanaka Norihiro, (Tsukishima Kikai) (Cor)Douya You
Organic NPs
Antisolvent
Whirl Stream
12-g638
13:4014:00E315Initiation timing of scale formation in melt crystallization of organic acid
(TUAT) *(Ful)Kudo S., (Mitsubishi Rayon) (Ful)Hino T., (TUAT) (Ful)Takiyama H.
Melt crystallization
scale formation
morphology
12-g645
(14:00–14:40) (Chair: Sato Jun, Nagamatsu Daiki)
14:0014:20E316Kinetic study for estimate of supersaturation of amyloid beta protein
(Okayama U.) *(Ful)Shimanouchi Toshinori, (Ful)Shimizu Maho, (Ful)Kimura Yukitaka
Supersaturation
Inhibitory effect
amyloid beta protein
12-g778
14:2014:40E317accumulation and crystallization of lysozyme on lipid planar membranes
(Okayama U.) *(Ful)Shimanouchi Toshinori, (Stu)Shirahige Yuuki, (Ful)Kimura Yukitaka
crystallization
lysozyme
lipid planar membrane
12-g801
(14:40–15:40) (Chair: Yamashita Seiji, Nakamura Hiroshi)
14:4015:00E318Novel crystallization technique of double salt utilizing contact reaction of minute droplet with atmospheric plasmas
(Chiba Inst. Tech.) *(Ful)Wada Y., (Stu)Kobayashi T., (Ful)Onoe K., (Nihon U.) (Ful)Matsumoto M.
atmospheric plasma
minute-droplet
hydroxyapatite
12-g853
15:0015:20E319Experimental determination of gelling time of calcium alginate hydrogel by high-speed observation.
(NIT Fukushima) *(Ful)Sato Jun, (Ful)Kurumada Ken-ichi
gelling time
calcium alginate hydrogel
morphology time evolution
12-e500
15:2015:40E320Preparation of hydrogel from a monosaccharide-type low molecular weight gelator with gelation ability for oils and evaluation of their physical properties
(Kyushu U.) *(Ful)Ono Fumiyasu, (Nissan Chemical Industries) (Cor)Hirata Osamu, (Kyushu U.) Ichimaru Keiko, (ISIT) Shinkai Seiji, (Nissan Chemical Industries/kyushu U.) (Cor)Watanabe Hisayuki
low molecular weight gelator
hydrogel
surfactant
12-e724
(15:40–17:00) (Chair: Ono Fumiyasu, Kudo Shoji)
15:4016:00E321Preparation of an iron hydroxide / hydrogel composite and its application to the arsenic adsorbent
(Hiroshima U.) *(Ful)Gotoh T., (Stu·PCEF)Senmoto K., (Ful)Iizawa T., (Ful)Nakai S.
arsenate
hydrogel
iron hydroxide
12-e800
16:0016:20E322Interfacial reaction and tribological characteristics on the friction of B4C composite ceramics
(Nagoya U.) *(Ful)Yamashita Seiji, (Stu)Urano Akihiro, (Ful)Kita Hideki
B4C composite
tribology
Friction
12-m846
16:2016:40E323Evaluation of persistence time scale of autocorrelation of rapidly altering morphology of flowing objects by inter-vision random sorting
(NIT Fukushima) *(Ful)Kurumada Kenichi, Yoshiwatari Shouta
persistence time scale
morphology autocorrelation
inter-vision random sorting
12-l507
16:4017:00E324Rheology of Concentrated Colloidal Dispersions
(Toyota Central R&D Labs.) *(Ful)Nakamura Hiroshi, (Cor)Harada Masashi, (Cor)Kumano Naomi, (Cor)Kusano Takumi, (Cor)Ishii Masahiko
Rheology
Colloidal Dispersion
Shear-thickening
12-l693

Technical program
Technical sessions (Wide)  (For narrow screen)
Session programs
Search in technical program
SCEJ 82nd Annual Meeting (Tokyo, 2017)


© 2017 The Society of Chemical Engineers, Japan. All rights reserved.
For more information contact Organizing Committee, SCEJ 82nd Annual Meeting (Tokyo, 2017)
E-mail: inquiry-82awww3.scej.org