SCEJ 49th Autumn Meeting (Nagoya, 2017): List of the applications (topics)

ST-26. [Trans-Division Symposium] CVD & Dry Processes -Reaction Engineering for the Structure / Functions Control-

Organizer(s):

Shimoyama Yusuke (Tokyo Tech), Nishida Satoshi (Gifu Univ.), Ikeda Kei (ATHENASYS Co.,Ltd.)

CVD and other dry processes are core technology in the industry applications for solar cell, electronics devices, MEMS, and functional coatings. This symposium motivates to discuss the logical optimization and design for controlling the microstructure and functions of thin films and fine particles produced by CVD or other dry processes based on the theoretical understanding of reaction mechanisms. Young Researcher Award will be given to distinguished young speakers chosen at the session.

Most recent update: 2018-02-12 17:39:01

The keywords that frequently used in this topics code.	Keywords	Number
CVD	5
chemical vapor deposition	4
plasma CVD	2
carbon nanotube	2
SiC	2
passivation	1

The keywords that frequently used
in this topics code.

Keywords

Number

CVD

chemical vapor deposition

plasma CVD

carbon nanotube

SiC

passivation

ACKN No.	Title/Author(s)	Keywords	Style
61	Flame-synthesis of single-wall carbon nanotubes: control over reaction field, flow field and catalyst supply for their quality (Waseda U.) *(Stu)Okada Shohei, (Ful)Sugime Hisashi, (Ful)Osawa Toshio, (Fujifilm) (Cor)Sugiura Hiroki, (Cor)Kataoka Shohei, (Cor)Igarashi Tatsuya, (Waseda U.) (Ful)Noda Suguru	single-wall carbon nanotubes flame synthesis reaction field control	O
62	The role of sulfur for the growth of carbon nanotube in chemical vapor deposition (Tokyo Tech) *(Stu)Suzuki Shunsuke, (Ful)Mori Shinsuke	carbon nanotube sulfur chemical vapor deposition	O
187	[Invited lecture] Ultra-high-speed coating of Diamond-Like Carbon by high-density plasma surrounding substrate and source gas blowing toward substrate (Gifu U.) Kousaka Hiroyuki	Diamond-Like Carbon Microwave Plasma CVD	O
367	The precursor pressure dependence of the crystal structure of Ti_1-xAl_xN films by thermal CVD (U. Tokyo) *(Stu)Sato Hiroki, Hirabaru Tomoko, (Kyocera) (Cor)Kubo Hayato, (U. Tokyo) (Ful)Momose Takeshi, (Kyocera) (Cor)Tanibuchi Takahito, (U. Tokyo) (Ful)Shimogaki Yukihiro	CVD TiAlN cutting tool	O
609	Rate analysis of carbon CVD on inert surfaces from benzene (Kyoto U.) *(Stu)Kamimura Shuhei, (Ful)Kawase Motoaki	CVD Carbon Benzene	O
618	Mass spectrometry of gas phase in plasma CVD of silica films (Kyoto U.) *(Stu)Tanaka M., (Ful)Kawase M.	plasma CVD silica mass spectrometry	O
658	Mechanism of fabrication of metal-organic framework HKUST-1 film by spray method (Hiroshima U.) *(Ful)Kubo Masaru, (Stu)Sugahara Takuya, (Ful)Shimada Manabu	Porous materials Crystal growth Carbon nanotube composite	O
666	Porous carbon electrode fabricated from supercritical drying for Li-O₂/CO₂ battery (Tokyo Tech) *(Stu)Kunanusont N., (Ful)Shimoyama Y.	supercritical drying porous carbon electrode Li-O2/CO2 battery	O
681	Effect of reaction conditions on morphology of TiO₂ layer formed on MWCNT by in-flight coating process (Hiroshima U.) *(Stu·PCEF)Fukumoto Yoshihiko, (Ful)Kubo Masaru, (Hiroshima U./ITS Surabaya) (Ful)Kusdianto K., (Hiroshima U.) (Ful)Shimada Manabu	Nanocomposite Plasma-enhanced chemical vapor deposition Aerosolization	O
711	Adhesion strength improvement of TiC-based hard coating layer by surface treated WC-Co (Osaka Pref. U.) *(Stu)Tanaka Chihiro, (Stu)Kiyokawa Daichi, (Ful)Okamoto Naoki, (Ful)Saito Takeyasu, (Osaka U.) Higuchi Kouji, Kitajima Akira	adhesion strength hard coating cemented carbide	O
729	Reduction of by-products in exhaust gases of CVD from Si-Cl compounds enabled by additive gases (U. Tokyo) *(Stu)Sato Noboru, (IHI) (Cor)Fukushima Yasuyuki, (U. Tokyo) (Stu)Funato Yuichi, (Ful)Shima Kohei, (Ful)Momose Takeshi, (NIAD-QE) Koshi Mitsuo, (U. Tokyo) (Ful)Shimogaki Yukihiro	silicon chlorine compounds by-product elementary reaction simulation	O
769	Effect of carbon monoxide on the growth of multi-walled carbon nanotube by chloride mediated CVD (Shizuoka U.) *(Stu)Komatsubara K., Yamanashi H., Karita M., Nakano T., Inoue Y., (JNC) (Cor)Nagaoka H.	carbon nanotube carbon monoxide chemical vapor deposition	O
770	[Review lecture] A control of processes based on advanced plasma sciences and their future prospects (Nagoya U.) *Hori Masaru, Ishikawa Kenji, Sekine Makoto	Plasma Deposition Etching	O
800	[Review lecture] Thin film deposition technologies for future high efficiency crystalline Si solar cells (Toyota Technological Inst.) *Ohshita Yoshio, (Meiji U.) Nakamura Kyotarou, (Toyota Technological Inst.) Lee Hyunju, Kamioka Takefumi	Solar cells passivation CVD	O
805	[Invited lecture] Numerical simulation of composite materials production by chemical vapor infiltration using computational fluid dynamics coupled with chemical kinetics (Nagoya U.) (Ful)Norinaga K.	chemical vapor infiltration composite materials numerical simulation	O
806	[Invited lecture] Development of 4H-SiC bulk single crystal growth by gas-source method (DENSO) *(Cor)Makino Emi, (Cor)Tokuda Yuichiro, (Cor)Kanda Takahiro, (Cor)Sugiyama Naohiro, (Cor)Kuno Hironari, (CRIEPI) Hoshino Norihiro, Kamata Isaho, Tsuchida Hidekazu, (DENSO) (Cor)Kojima Jun	4H-SiC gas-source method fast growth	O
810	Investigation of growth model on SiC-CVI process with high precursor concentration (U. Tokyo) *(Stu)Naka Tomoaki, (Stu)Sato Noboru, (Ful)Shima Kohei, (Stu)Funato Yuichi, (IHI) (Cor)Fukushima Yasuyuki, (U. Tokyo) (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro	CVI SiC process	O
813	[Invited lecture] Reaction Engineering on the Supercritical Hydrothermal Synthesis (Nagoya U.) (Ful)Takami S.	supercritical hydrothermal synthesis metal oxide nanoparticles reaction engineering	O
875	Synthesis of Carbon Nanowalls by Plasma Enhanced CVD Utilizing ECR Discharge and Investigation of Their Parallelization (Tokyo Tech) *(Stu)Suzuki Ryo, (Ful)Mori Shinsuke	carbon nanowalls plasma enhanced CVD	O
883	Chirality selective synthesis of carbon nanotubes using binary catalyst optimized by combinatorial method (Waseda U.) *(Stu)Edo Michiko, (Ful)Sugime Hisashi, (Ful)Noda Suguru	chemical vapor deposition carbon nanotubes chirality control	O
923	Construction of overall reaction model on SiC-CVD and experimental verification (U. Tokyo) *(Stu)Funato Yuichi, (Stu)Sato Noboru, (Ful)Shima Kohei, (Stu)Naka Tomoaki, (IHI) (Ful)Fukushima Yasuyuki, (U. Tokyo) (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro	SiC CVD modeling	O
942	Multiscale analysis and simulation on trench filling process by chemical vapor deposition (U. Tokyo) *(Stu)Funato Yuichi, (Stu)Sato Noboru, (Ful)Shima Kohei, (Stu)Naka Tomoaki, (IHI) (Ful)Fukushima Yasuyuki, (U. Tokyo) (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro	CVD trench Multiscale	O
1003	Low temperature growth of ultra-high mass density carbon nanotube forests on conductive supports (Waseda U.) (Ful)Sugime Hisashi	chemical vapor deposition low temperature growth lithography	O

ACKN
No.

Title/Author(s)

Keywords

Style

Flame-synthesis of single-wall carbon nanotubes: control over reaction field, flow field and catalyst supply for their quality
(Waseda U.) *(Stu)Okada Shohei, (Ful)Sugime Hisashi, (Ful)Osawa Toshio, (Fujifilm) (Cor)Sugiura Hiroki, (Cor)Kataoka Shohei, (Cor)Igarashi Tatsuya, (Waseda U.) (Ful)Noda Suguru

single-wall carbon nanotubes
flame synthesis
reaction field control

The role of sulfur for the growth of carbon nanotube in chemical vapor deposition
(Tokyo Tech) *(Stu)Suzuki Shunsuke, (Ful)Mori Shinsuke

carbon nanotube
sulfur
chemical vapor deposition

187

[Invited lecture] Ultra-high-speed coating of Diamond-Like Carbon by high-density plasma surrounding substrate and source gas blowing toward substrate
(Gifu U.) Kousaka Hiroyuki

Diamond-Like Carbon
Microwave
Plasma CVD

367

The precursor pressure dependence of the crystal structure of Ti_1-xAl_xN films by thermal CVD
(U. Tokyo) *(Stu)Sato Hiroki, Hirabaru Tomoko, (Kyocera) (Cor)Kubo Hayato, (U. Tokyo) (Ful)Momose Takeshi, (Kyocera) (Cor)Tanibuchi Takahito, (U. Tokyo) (Ful)Shimogaki Yukihiro

CVD
TiAlN
cutting tool

609

Rate analysis of carbon CVD on inert surfaces from benzene
(Kyoto U.) *(Stu)Kamimura Shuhei, (Ful)Kawase Motoaki

CVD
Carbon
Benzene

618

Mass spectrometry of gas phase in plasma CVD of silica films
(Kyoto U.) *(Stu)Tanaka M., (Ful)Kawase M.

plasma CVD
silica
mass spectrometry

658

Mechanism of fabrication of metal-organic framework HKUST-1 film by spray method
(Hiroshima U.) *(Ful)Kubo Masaru, (Stu)Sugahara Takuya, (Ful)Shimada Manabu

Porous materials
Crystal growth
Carbon nanotube composite

666

Porous carbon electrode fabricated from supercritical drying for Li-O₂/CO₂ battery
(Tokyo Tech) *(Stu)Kunanusont N., (Ful)Shimoyama Y.

supercritical drying
porous carbon electrode
Li-O2/CO2 battery

681

Effect of reaction conditions on morphology of TiO₂ layer formed on MWCNT by in-flight coating process
(Hiroshima U.) *(Stu·PCEF)Fukumoto Yoshihiko, (Ful)Kubo Masaru, (Hiroshima U./ITS Surabaya) (Ful)Kusdianto K., (Hiroshima U.) (Ful)Shimada Manabu

Nanocomposite
Plasma-enhanced chemical vapor deposition
Aerosolization

711

Adhesion strength improvement of TiC-based hard coating layer by surface treated WC-Co
(Osaka Pref. U.) *(Stu)Tanaka Chihiro, (Stu)Kiyokawa Daichi, (Ful)Okamoto Naoki, (Ful)Saito Takeyasu, (Osaka U.) Higuchi Kouji, Kitajima Akira

adhesion strength
hard coating
cemented carbide

729

Reduction of by-products in exhaust gases of CVD from Si-Cl compounds enabled by additive gases
(U. Tokyo) *(Stu)Sato Noboru, (IHI) (Cor)Fukushima Yasuyuki, (U. Tokyo) (Stu)Funato Yuichi, (Ful)Shima Kohei, (Ful)Momose Takeshi, (NIAD-QE) Koshi Mitsuo, (U. Tokyo) (Ful)Shimogaki Yukihiro

silicon chlorine compounds
by-product
elementary reaction simulation

769

Effect of carbon monoxide on the growth of multi-walled carbon nanotube by chloride mediated CVD
(Shizuoka U.) *(Stu)Komatsubara K., Yamanashi H., Karita M., Nakano T., Inoue Y., (JNC) (Cor)Nagaoka H.

carbon nanotube
carbon monoxide
chemical vapor deposition

770

[Review lecture] A control of processes based on advanced plasma sciences and their future prospects
(Nagoya U.) *Hori Masaru, Ishikawa Kenji, Sekine Makoto

Plasma
Deposition
Etching

800

[Review lecture] Thin film deposition technologies for future high efficiency crystalline Si solar cells
(Toyota Technological Inst.) *Ohshita Yoshio, (Meiji U.) Nakamura Kyotarou, (Toyota Technological Inst.) Lee Hyunju, Kamioka Takefumi

Solar cells
passivation
CVD

805

[Invited lecture] Numerical simulation of composite materials production by chemical vapor infiltration using computational fluid dynamics coupled with chemical kinetics
(Nagoya U.) (Ful)Norinaga K.

chemical vapor infiltration
composite materials
numerical simulation

806

[Invited lecture] Development of 4H-SiC bulk single crystal growth by gas-source method
(DENSO) *(Cor)Makino Emi, (Cor)Tokuda Yuichiro, (Cor)Kanda Takahiro, (Cor)Sugiyama Naohiro, (Cor)Kuno Hironari, (CRIEPI) Hoshino Norihiro, Kamata Isaho, Tsuchida Hidekazu, (DENSO) (Cor)Kojima Jun

4H-SiC
gas-source method
fast growth

810

Investigation of growth model on SiC-CVI process with high precursor concentration
(U. Tokyo) *(Stu)Naka Tomoaki, (Stu)Sato Noboru, (Ful)Shima Kohei, (Stu)Funato Yuichi, (IHI) (Cor)Fukushima Yasuyuki, (U. Tokyo) (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro

CVI
SiC
process

813

[Invited lecture] Reaction Engineering on the Supercritical Hydrothermal Synthesis
(Nagoya U.) (Ful)Takami S.

supercritical hydrothermal synthesis
metal oxide nanoparticles
reaction engineering

875

Synthesis of Carbon Nanowalls by Plasma Enhanced CVD Utilizing ECR Discharge and Investigation of Their Parallelization
(Tokyo Tech) *(Stu)Suzuki Ryo, (Ful)Mori Shinsuke

carbon nanowalls
plasma enhanced CVD

883

Chirality selective synthesis of carbon nanotubes using binary catalyst optimized by combinatorial method
(Waseda U.) *(Stu)Edo Michiko, (Ful)Sugime Hisashi, (Ful)Noda Suguru

chemical vapor deposition
carbon nanotubes
chirality control

923

Construction of overall reaction model on SiC-CVD and experimental verification
(U. Tokyo) *(Stu)Funato Yuichi, (Stu)Sato Noboru, (Ful)Shima Kohei, (Stu)Naka Tomoaki, (IHI) (Ful)Fukushima Yasuyuki, (U. Tokyo) (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro

SiC
CVD
modeling

942

Multiscale analysis and simulation on trench filling process by chemical vapor deposition
(U. Tokyo) *(Stu)Funato Yuichi, (Stu)Sato Noboru, (Ful)Shima Kohei, (Stu)Naka Tomoaki, (IHI) (Ful)Fukushima Yasuyuki, (U. Tokyo) (Ful)Momose Takeshi, (Ful)Shimogaki Yukihiro

CVD
trench
Multiscale

1003

Low temperature growth of ultra-high mass density carbon nanotube forests on conductive supports
(Waseda U.) (Ful)Sugime Hisashi

chemical vapor deposition
low temperature growth
lithography

List of received applications (By topics code)

List of received applications

SCEJ 49th Autumn Meeting (Nagoya, 2017)

(C) 2018 The Society of Chemical Engineers, Japan. . All rights reserved.
Most recent update: 2018-02-12 17:39:01
For more information contact Organizing Committee, SCEJ 49th Autumn Meeting (Nagoya, 2017)
E-mail: inquiry-49f

www3.scej.org

This page was generated by

`SCEJ 49th Autumn Meeting (Nagoya, 2017)`

List of received applications (By topics code)

ST) SCEJ Trans-Division Symposium

ST-26. [Trans-Division Symposium] CVD & Dry Processes -Reaction Engineering for the Structure / Functions Control-