28th SCEJ Students Meeting (online, 2026): Session programs

Session programs

The technical program on this page is still provisional. Confirm the final program later.

Energy engineering, Electronics

H01-H06, H08-H13, H20-H25, H27-H33, I01-I06, I08-I13, I20-I25

Most recent update: 2026-01-19 09:17:27

Time	Paper ID	Title / Authors	Keywords	Topic code	Ack. number
Hall H
9:30 – 9:42	H01	Enhanced Congo Red Degradation via Interlayer Redox Reactions of Layered MnO₂ under Light Irradiation (Kanto-Gakuin U.) *Higashi Natsumi, Matsui Masami, Tomono Kazuaki	Congo Red Degradation Light Irradiation Layered Manganese Oxide	11-b	8
9:42 – 9:54	H02	The optimal light-collecting shape. (OdateHomei H.S) Toshima K., Sato F., *Tozawa Y., Sugimoto Y.	light-collecting shape solar cell current and voltage	9-f	154
9:54 – 10:06	H03	Evaluation of voltage sensitivity in quantum dots for voltage-sensitive nanoprobes (NIT. Kure Col.) *Kubo Y., Tanaka S.	quantum dot quantum-confined stark effect nanoprobe	12-c	186
10:06 – 10:18	H04	Conditions for the formation-disapperance reactions of metals during electrolysis (Tennoji H.S.) Asai Yuto, Matsumoto Yuto, Fukunaga Naoya	proportion electrolysis tempereture	11-a	238
10:18 – 10:30	H05	Capacitor Characterization of Layered Manganese Oxide Films Adsorbed with Acid Red 18 (Kanto-Gakuin U.) *Kobayashi Momoka, Yamaguchi Rion, Matsui Masami, Tomono Kazuaki	Acid red 18 Layered manganese oxide Electrochemical Capacitance	12-a	6
10:30 – 10:42	H06	Dye-sensitized solar cells using common vegetable extracts (OodateHomeih) Suzuki Tenyu, Ito Shunta, *Kataoka Miyu, Suzuki Shuko	DSSC	13-f	29

10:50 – 11:02	H08	Study on Charge-Discharge Control Methods for Lithium-Ion Capacitors (Toyohashi Tech) *Watanabe Takahiro, Hamada Shu, Xiao Yan, Hori Kyota, Watanabe Takato, Takikawa Hirofumi, Tojo Tomohiro	Lithium-Ion Capacitors DC-DC converter LTspice Simulation	9-e	74
11:02 – 11:14	H09	The Improvement of Aluminum-air Batteries for Longer-lasting (Nishinomiya Municipal Nishinomiya H.S) *Kuratani T., Hashimoto R., Harasawa N., Okamoto H., Iwata R.	air batteries aluminum	11-a	281
11:14 – 11:26	H10	Hydrogen generation at a Pt cathode and the effect of light dependence in a layered MnO₂ anode with intercalated Ru complex (Kanto-Gakuin U.) *Sano Hayato, Sasaki Ryo, Tomono Kazuaki	Layered MnO2 Visible-Light Irradiation Hydrogen generation	9-a	4
11:26 – 11:38	H11	Attempt to create a new type of storage battery using iodine ions (NIT Yonago) Hirao M., Kawata A., Shimizu T., Tanifuji N.	Iodine MOF Batteries	9-f	244
11:38 – 11:50	H12	Charge–Discharge and EIS Analysis of Aqueous Batteries Employing Layered MnO₂ with Interlayer Co Complexes (Kanto-Gakuin U.) *Sano Ryo, Hanaya Akinobu, Tomono Kazuaki	Aqueous Battery Layered MnO2 Electrochemical Impedance Spectroscopy	11-a	9
11:50 – 12:02	H13	Development of a Novel Electrolyte for Rechargeable Aluminum–Air Batteries (TUAT) *Fukawa A., Ohashi H.	aluminum-air battery electrolyte rechargeable	11-a	64

13:14 – 13:26	H20	Effects of citrus molasses componets on dye-sensitized solar cells (Matsuyamachuo H.S. Ehime pref.) Yoshino haruto, Saeki riku, *Wakamatu sakuya, Maki daisuke	DSSC citrus molasses solar cells	11-a	152
13:26 – 13:38	H21	Effect of monosodium glutamate on iron elution-development of blue carbon technology (Matsuyamachuo H.S. of Ehime pref.) *Aibara Yumi, Maki daisuke	MSG slag sea	5-g	158
13:38 – 13:50	H22	Elucidation of Charge Compensation Mechanism in Layered MnO₂ Capacitors Using Electrochemical Impedance Spectroscopy (EIS) (Kanto-Gakuin U.) *Sugawara Ryota, Tomono Kazuaki	Manganese oxide capacitor Electrochemical impedance spectroscopy Charge compensation mechanism	11-a	5
13:50 – 14:02	H23	Construction and voltage measurement of a flow-type direct hydrogen water fuel cell (NIT. Kure) Takiguchi Yuto, Hori Yugo, *Yamane Aoi, Fujiwara Reika, Teraoka Anju, Oikawa Eisaku	direct hydrogen water fuel cell dissolved hydrogen reductive fine bubble chemistry	9-a	174
14:02 – 14:14	H24	Development of Phase Change Material Based on Solid-Solid Phase Transition (Chiba U.) *Noda Takumu, Suzumura Hayato, Sugawara Masaya, Tokushige Manabu, Ryu Junichi	Phase Change Material Solid-Solid Phase Transition Pentaerythritol	9-b	85
14:14 – 14:26	H25	Electrochemical reduction of carbon dioxide with Cu nanoparticle (Fukuoka Inst. Tech.) *Hiraga Shun-ya, Haraguchi Hayato, Moto¡¼ori Hina, Matsuyama Kiyoshi	CO2RR Cu nanoparticle Crystal structure	12-k	127

14:34 – 14:46	H27	A three-pronged approach to practical application of gel-air batteries (kumamoto H.S.) Honda T., Nakaguma K., *Motoyama H., Murakami R., Suzuki S., Kanada K., Matumori K., Hirokawa M., Mitui Y., Nakamura A., Hama M., Araki S., Suzuki S., Sawada Z.., Hashimoto T., Hirakawa T., Kanokogi H., Murakami M., Hayano Y.	Gel Magnesium-Air Battery Gel Aluminum-Air Battery Magnesium Gallium Alloy	11-a	144
14:46 – 14:58	H28	Recovery of Active Material from Lithium-ion Battery Cathode Films Using Liquid-Liquid Classification (U.hosei) *Sugai R, Kitamura K, Mori T	Liquid-Liquid Classification Lithium-ion Battery Recycling Particle Separation	13-e	68
14:58 – 15:10	H29	Attempts to elucidate the mechanism of slime solar cells! (Kofuminami H.S) Inoue S., Shigeta Y., Osada Y., Takao A., *Tanaka H., Fujikawa K.	solar cells slime Titanium dioxide	11-a	106
15:10 – 15:22	H30	Development of Electrode Catalysts for Green Hydrogen Production Processes (Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Tomizuka Taichi, Nomura Mikihiro	Electrode catalysts Sulfur dioxide Hydrogen production	5-a	51
15:22 – 15:34	H31	Prototype Development of a Maximum Power Point Tracking Control Circuit for Solar Cells and Evaluation of Its Tracing Performance (Toyohashi Tech) *Watanabe Takato, Hamada Shu, Xiao Yan, Hori Kyota, Watanabe Takahiro, Takikawa Hirofumi, Tojo Tomohiro	Maximum Power Point Tracking Control Solar Cells Tracking Performance	9-e	114
15:34 – 15:46	H32	Fundamental Evaluation of Power Generation Performance of Microbial Fuel Cells Using Sugar-Amended Soil (Toyohashi Tech) *Iwamura Naoharu, (Shizuoka Inst. Sci. Tech.) Komba Hiroya, (Toyohashi Tech) Naito Kosei, Inada Ryoji, Tojo Tomohiro	Microorganisms Sugar-Amended Soil Power Generation Performance	11-a	49
15:46 – 15:58	H33	Kinetic contribution of anionic vesicles as templates on the enzymatic reaction of charged substrates (NIT Oyama) *Yoshida Masato, Kashima Keita	vesicle enzymatic oxidation template effect	12-k	250
Hall I
9:30 – 9:42	I01	Synthesis of calcium hydroxide-based mixed hydroxides and their applications in chemical heat storage materials (Chiba U.) *Saito Kano, Sakurai Taiki, Yamazaki Ryuta, Tokushige Manabu, Ryu Junichi	Chemical heat storage Calcium hydroxide Mechanochemical method	9-b	86
9:42 – 9:54	I02	Effects of Coating and Drying Conditions of Lithium-Ion Battery Slurries on Electrode Film Particle Structure (U.Hosei) *Kobayashi H., Yura K., (U.Hosei/Nissan Motor Co.,Ltd) Tsutsui G., (U.Hosei) Kitamura K., Mori T.	Lithium-ion battery slurry Drying conditions	11-a	70
9:54 – 10:06	I03	Actived carbon production from coffee and tea breweing residues and its application in chemical hand warmers: a study on heat generation efficiency (Tennoji H.S.) Okada Toshiki, Kobayashi Ayumu, Takeuchi shumma, Tamai Katsuyoshi, Iwai Haruhiko	Carbonization Chemical hand warmers Heat generation effiency	9-c	225
10:06 – 10:18	I04	Application of Prussian blue electrodeposited on carbon paper as an electrocatalyst (NITTC) *Oi Y, Yasuda T, Shiroishi H	Carbon paper Prussian Blue Electrocatalyst	11-a	129
10:18 – 10:30	I05	Effect of impurities in Rresynthesis of solid electrolytes from electrode materials by spray-drying method (Osaka Metro. U.) *Matsushita Masaki, Osaki Ryo, Ohsaki Shuji, Nakamura Hideya, Watano Satoru	All-solid-state battery Solid electrolyte Spray drying	13-e	219
10:30 – 10:42	I06	Make sunscreen from used batterie (Shimonosekinishi) Ooshima Kumi, Kanehiro Shun, Chikuni Koutarou, Nakao Saki, Okada Shougo	Zinc extraction Zinc oxide Sunscreen	13-e	57

10:50 – 11:02	I08	Fabrication and Performance Evaluation of Activated Carbon for EDLCs Using a Combined KOH-KMnO4 Activating Agent (NIT Anan) *Miyoshi Rin, Konishi Tomoya, Kamano Masaru, Zheng Tao	Activated Carbon EDLC KOH-KMnO4	9-c	79
11:02 – 11:14	I09	Considerations and applications of plant-based and microbial fuel cells in homes (seisho H.S.) *Takanashi Reina, Ikejiri Naofumi	clean energy microorganisms energy	9-e	98
11:14 – 11:26	I10	Development of Fe-Co/N/C type non-platinum oxygen reduction catalysts using a two-step heat treatment method (NITTC) *Ishikawa M, Shiroishi H, (Toyo U.) Matsumoto H, Shiraishi M, Nishitani-Gamo M	two-step heat treatment non-platinum oxygen reduction catalyst Fuel cell	11-a	133
11:26 – 11:38	I11	CO2 electroreduction in 1-Butyl-3-methylimidazolium Chloride (NITTC) Asakura O, Ishii T, *Ueno T, Hamamura K, Shiroishi H	CO2 electroreduction ionic liquid	13-g	46
11:38 – 11:50	I12	Effect of Coating Process Parameters on the Catalyst Layer Structure and Electrochemical CO2 Reduction Activity (Tohoku U.) *Kuwano T., Iwase K., Tomai T.	CO2 electrolysis Catalyst Spray coating	11-a	162
11:50 – 12:02	I13	The Search for Additives to Suppress Sulphation in Lead-Acid Batteries (Akita H.S) Kudo H., Kato Y., Sasaki K., Nishikawa M., Ito M.	Sulphation Lead-Acid Batteries	11-a	169

13:14 – 13:26	I20	Effect of pH and temperature on hydrothermal fixation of carbon dioxide to serpentine (Utsunomiya U.) *Aoki Masahiro, Sato Takafumi, Itoh Naotsugu	hydrothermal reaction fixation of carbon dioxide serpentine	8-f	101
13:26 – 13:38	I21	Heat release characteristics of erythritol heat storage microcapsules (Yamagata U.) *Sato Manato, Hosokawa Naoya, Makuta Toshinori, Akamatsu Masato	Erythritol heat storage microcapsule dispersion Heat release characteristic	9-b	150
13:38 – 13:50	I22	Study on electrolysis using two power sources (Tochigi H.S) Sekine R., Takeuchi Y., *Sekita D., Kato H.	electrolysis two power sources efficiensy	11-a	157
13:50 – 14:02	I23	Development of electrolysis of water and hydrogenation equipment using cand synthesis of energy carriers (Utsunomiya U.) *Kondo Daito, Sato Takafumi, Itoh Naotsugu	hydrogen permeable membrane electrode electrolysis of water hydrogenation	5-d	109
14:02 – 14:14	I24	Effective viscosity measurements of erythritol heat storage microcapsule dispersions near room temperature using a rotational viscometer (Yamagata U.) *Takatoku Haruto, Hibino Fumiya, Ikeda Kazuto, Makuta Toshinori, Akamatsu Masato	Erythritol heat storage microcapsule dispersion Rotational viscometer Effective viscosity	9-b	148
14:14 – 14:26	I25	Effective viscosity measurements of erythritol heat storage microcapsule dispersions near the melting point using a rotational viscometer (Yamagata U.) *Ikeda Kazuto, Hibino Fumiya, Takatoku Haruto, Makuta Toshinori, Akamatsu Masato	Erythritol heat storage microcapsule dispersion Rotational viscometer Effective viscosity	9-b	149

Time

Paper
ID

Title / Authors

Keywords

Topic code

Ack.
number

Hall H

9:30 – 9:42

H01

Enhanced Congo Red Degradation via Interlayer Redox Reactions of Layered MnO₂ under Light Irradiation

(Kanto-Gakuin U.) *Higashi Natsumi, Matsui Masami, Tomono Kazuaki

Congo Red Degradation
Light Irradiation
Layered Manganese Oxide

11-b

9:42 – 9:54

H02

The optimal light-collecting shape.

(OdateHomei H.S) *Toshima K., *Sato F., *Tozawa Y., Sugimoto Y.

light-collecting shape
solar cell
current and voltage

9-f

154

9:54 – 10:06

H03

Evaluation of voltage sensitivity in quantum dots for voltage-sensitive nanoprobes

(NIT. Kure Col.) *Kubo Y., Tanaka S.

quantum dot
quantum-confined stark effect
nanoprobe

12-c

186

10:06 – 10:18

H04

Conditions for the formation-disapperance reactions of metals during electrolysis

(Tennoji H.S.) *Asai Yuto, *Matsumoto Yuto, Fukunaga Naoya

proportion
electrolysis
tempereture

11-a

238

10:18 – 10:30

H05

Capacitor Characterization of Layered Manganese Oxide Films Adsorbed with Acid Red 18

(Kanto-Gakuin U.) *Kobayashi Momoka, Yamaguchi Rion, Matsui Masami, Tomono Kazuaki

Acid red 18
Layered manganese oxide
Electrochemical Capacitance

12-a

10:30 – 10:42

H06

Dye-sensitized solar cells using common vegetable extracts

(OodateHomeih) *Suzuki Tenyu, *Ito Shunta, *Kataoka Miyu, Suzuki Shuko

DSSC

13-f

10:50 – 11:02

H08

Study on Charge-Discharge Control Methods for Lithium-Ion Capacitors

(Toyohashi Tech) *Watanabe Takahiro, Hamada Shu, Xiao Yan, Hori Kyota, Watanabe Takato, Takikawa Hirofumi, Tojo Tomohiro

Lithium-Ion Capacitors
DC-DC converter
LTspice Simulation

9-e

11:02 – 11:14

H09

The Improvement of Aluminum-air Batteries for Longer-lasting

(Nishinomiya Municipal Nishinomiya H.S) *Kuratani T., Hashimoto R., Harasawa N., Okamoto H., Iwata R.

air batteries
aluminum

11-a

281

11:14 – 11:26

H10

Hydrogen generation at a Pt cathode and the effect of light dependence in a layered MnO₂ anode with intercalated Ru complex

(Kanto-Gakuin U.) *Sano Hayato, Sasaki Ryo, Tomono Kazuaki

Layered MnO2
Visible-Light Irradiation
Hydrogen generation

9-a

11:26 – 11:38

H11

Attempt to create a new type of storage battery using iodine ions

(NIT Yonago) *Hirao M., *Kawata A., Shimizu T., Tanifuji N.

Iodine
MOF
Batteries

9-f

244

11:38 – 11:50

H12

Charge–Discharge and EIS Analysis of Aqueous Batteries Employing Layered MnO₂ with Interlayer Co Complexes

(Kanto-Gakuin U.) *Sano Ryo, Hanaya Akinobu, Tomono Kazuaki

Aqueous Battery
Layered MnO2
Electrochemical Impedance Spectroscopy

11-a

11:50 – 12:02

H13

Development of a Novel Electrolyte for Rechargeable Aluminum–Air Batteries

(TUAT) *Fukawa A., Ohashi H.

aluminum-air battery
electrolyte
rechargeable

11-a

13:14 – 13:26

H20

Effects of citrus molasses componets on dye-sensitized solar cells

(Matsuyamachuo H.S. Ehime pref.) *Yoshino haruto, *Saeki riku, *Wakamatu sakuya, Maki daisuke

DSSC
citrus molasses
solar cells

11-a

152

13:26 – 13:38

H21

Effect of monosodium glutamate on iron elution-development of blue carbon technology

(Matsuyamachuo H.S. of Ehime pref.) *Aibara Yumi, Maki daisuke

MSG
slag
sea

5-g

158

13:38 – 13:50

H22

Elucidation of Charge Compensation Mechanism in Layered MnO₂ Capacitors Using Electrochemical Impedance Spectroscopy (EIS)

(Kanto-Gakuin U.) *Sugawara Ryota, Tomono Kazuaki

Manganese oxide capacitor
Electrochemical impedance spectroscopy
Charge compensation mechanism

11-a

13:50 – 14:02

H23

Construction and voltage measurement of a flow-type direct hydrogen water fuel cell

(NIT. Kure) *Takiguchi Yuto, *Hori Yugo, *Yamane Aoi, Fujiwara Reika, Teraoka Anju, Oikawa Eisaku

direct hydrogen water fuel cell
dissolved hydrogen
reductive fine bubble chemistry

9-a

174

14:02 – 14:14

H24

Development of Phase Change Material Based on Solid-Solid Phase Transition

(Chiba U.) *Noda Takumu, Suzumura Hayato, Sugawara Masaya, Tokushige Manabu, Ryu Junichi

Phase Change Material
Solid-Solid Phase Transition
Pentaerythritol

9-b

14:14 – 14:26

H25

Electrochemical reduction of carbon dioxide with Cu nanoparticle

(Fukuoka Inst. Tech.) *Hiraga Shun-ya, Haraguchi Hayato, Moto¡¼ori Hina, Matsuyama Kiyoshi

CO2RR
Cu nanoparticle
Crystal structure

12-k

127

14:34 – 14:46

H27

A three-pronged approach to practical application of gel-air batteries

(kumamoto H.S.) *Honda T., *Nakaguma K., *Motoyama H., Murakami R., Suzuki S., Kanada K., Matumori K., Hirokawa M., Mitui Y., Nakamura A., Hama M., Araki S., Suzuki S., Sawada Z.., Hashimoto T., Hirakawa T., Kanokogi H., Murakami M., Hayano Y.

Gel Magnesium-Air Battery
Gel Aluminum-Air Battery
Magnesium Gallium Alloy

11-a

144

14:46 – 14:58

H28

Recovery of Active Material from Lithium-ion Battery Cathode Films Using Liquid-Liquid Classification

(U.hosei) *Sugai R, Kitamura K, Mori T

Liquid-Liquid Classification
Lithium-ion Battery Recycling
Particle Separation

13-e

14:58 – 15:10

H29

Attempts to elucidate the mechanism of slime solar cells!

(Kofuminami H.S) *Inoue S., *Shigeta Y., *Osada Y., *Takao A., *Tanaka H., Fujikawa K.

solar cells
slime
Titanium dioxide

11-a

106

15:10 – 15:22

H30

Development of Electrode Catalysts for Green Hydrogen Production Processes

(Shibaura Inst. Tech. or Saitama Inst. Tech. or Shonan Inst. Tech.) *Tomizuka Taichi, Nomura Mikihiro

Electrode catalysts
Sulfur dioxide
Hydrogen production

5-a

15:22 – 15:34

H31

Prototype Development of a Maximum Power Point Tracking Control Circuit for Solar Cells and Evaluation of Its Tracing Performance

(Toyohashi Tech) *Watanabe Takato, Hamada Shu, Xiao Yan, Hori Kyota, Watanabe Takahiro, Takikawa Hirofumi, Tojo Tomohiro

Maximum Power Point Tracking Control
Solar Cells
Tracking Performance

9-e

114

15:34 – 15:46

H32

Fundamental Evaluation of Power Generation Performance of Microbial Fuel Cells Using Sugar-Amended Soil

(Toyohashi Tech) *Iwamura Naoharu, (Shizuoka Inst. Sci. Tech.) Komba Hiroya, (Toyohashi Tech) Naito Kosei, Inada Ryoji, Tojo Tomohiro

Microorganisms
Sugar-Amended Soil
Power Generation Performance

11-a

15:46 – 15:58

H33

Kinetic contribution of anionic vesicles as templates on the enzymatic reaction of charged substrates

(NIT Oyama) *Yoshida Masato, Kashima Keita

vesicle
enzymatic oxidation
template effect

12-k

250

Hall I

9:30 – 9:42

I01

Synthesis of calcium hydroxide-based mixed hydroxides and their applications in chemical heat storage materials

(Chiba U.) *Saito Kano, Sakurai Taiki, Yamazaki Ryuta, Tokushige Manabu, Ryu Junichi

Chemical heat storage
Calcium hydroxide
Mechanochemical method

9-b

9:42 – 9:54

I02

Effects of Coating and Drying Conditions of Lithium-Ion Battery Slurries on Electrode Film Particle Structure

(U.Hosei) *Kobayashi H., Yura K., (U.Hosei/Nissan Motor Co.,Ltd) Tsutsui G., (U.Hosei) Kitamura K., Mori T.

Lithium-ion battery
slurry
Drying conditions

11-a

9:54 – 10:06

I03

Actived carbon production from coffee and tea breweing residues and its application in chemical hand warmers: a study on heat generation efficiency

(Tennoji H.S.) *Okada Toshiki, *Kobayashi Ayumu, *Takeuchi shumma, *Tamai Katsuyoshi, Iwai Haruhiko

Carbonization
Chemical hand warmers
Heat generation effiency

9-c

225

10:06 – 10:18

I04

Application of Prussian blue electrodeposited on carbon paper as an electrocatalyst

(NITTC) *Oi Y, Yasuda T, Shiroishi H

Carbon paper
Prussian Blue
Electrocatalyst

11-a

129

10:18 – 10:30

I05

Effect of impurities in Rresynthesis of solid electrolytes from electrode materials by spray-drying method

(Osaka Metro. U.) *Matsushita Masaki, Osaki Ryo, Ohsaki Shuji, Nakamura Hideya, Watano Satoru

All-solid-state battery
Solid electrolyte
Spray drying

13-e

219

10:30 – 10:42

I06

Make sunscreen from used batterie

(Shimonosekinishi) *Ooshima Kumi, *Kanehiro Shun, *Chikuni Koutarou, *Nakao Saki, Okada Shougo

Zinc extraction
Zinc oxide
Sunscreen

13-e

10:50 – 11:02

I08

Fabrication and Performance Evaluation of Activated Carbon for EDLCs Using a Combined KOH-KMnO4 Activating Agent

(NIT Anan) *Miyoshi Rin, Konishi Tomoya, Kamano Masaru, Zheng Tao

Activated Carbon
EDLC
KOH-KMnO4

9-c

11:02 – 11:14

I09

Considerations and applications of plant-based and microbial fuel cells in homes

(seisho H.S.) *Takanashi Reina, Ikejiri Naofumi

clean energy
microorganisms
energy

9-e

11:14 – 11:26

I10

Development of Fe-Co/N/C type non-platinum oxygen reduction catalysts using a two-step heat treatment method

(NITTC) *Ishikawa M, Shiroishi H, (Toyo U.) Matsumoto H, Shiraishi M, Nishitani-Gamo M

two-step heat treatment
non-platinum oxygen reduction catalyst
Fuel cell

11-a

133

11:26 – 11:38

I11

CO2 electroreduction in 1-Butyl-3-methylimidazolium Chloride

(NITTC) *Asakura O, *Ishii T, *Ueno T, Hamamura K, Shiroishi H

CO2
electroreduction
ionic liquid

13-g

11:38 – 11:50

I12

Effect of Coating Process Parameters on the Catalyst Layer Structure and Electrochemical CO2 Reduction Activity

(Tohoku U.) *Kuwano T., Iwase K., Tomai T.

CO2 electrolysis
Catalyst
Spray coating

11-a

162

11:50 – 12:02

I13

The Search for Additives to Suppress Sulphation in Lead-Acid Batteries

(Akita H.S) *Kudo H., *Kato Y., *Sasaki K., *Nishikawa M., Ito M.

Sulphation
Lead-Acid Batteries

11-a

169

13:14 – 13:26

I20

Effect of pH and temperature on hydrothermal fixation of carbon dioxide to serpentine

(Utsunomiya U.) *Aoki Masahiro, Sato Takafumi, Itoh Naotsugu

hydrothermal reaction
fixation of carbon dioxide
serpentine

8-f

101

13:26 – 13:38

I21

Heat release characteristics of erythritol heat storage microcapsules

(Yamagata U.) *Sato Manato, Hosokawa Naoya, Makuta Toshinori, Akamatsu Masato

Erythritol heat storage microcapsule dispersion
Heat release characteristic

9-b

150

13:38 – 13:50

I22

Study on electrolysis using two power sources

(Tochigi H.S) *Sekine R., *Takeuchi Y., *Sekita D., Kato H.

electrolysis
two power sources
efficiensy

11-a

157

13:50 – 14:02

I23

Development of electrolysis of water and hydrogenation equipment using cand synthesis of energy carriers

(Utsunomiya U.) *Kondo Daito, Sato Takafumi, Itoh Naotsugu

hydrogen permeable membrane electrode
electrolysis of water
hydrogenation

5-d

109

14:02 – 14:14

I24

Effective viscosity measurements of erythritol heat storage microcapsule dispersions near room temperature using a rotational viscometer

(Yamagata U.) *Takatoku Haruto, Hibino Fumiya, Ikeda Kazuto, Makuta Toshinori, Akamatsu Masato

Erythritol heat storage microcapsule dispersion
Rotational viscometer
Effective viscosity

9-b

148

14:14 – 14:26

I25

Effective viscosity measurements of erythritol heat storage microcapsule dispersions near the melting point using a rotational viscometer

(Yamagata U.) *Ikeda Kazuto, Hibino Fumiya, Takatoku Haruto, Makuta Toshinori, Akamatsu Masato

Erythritol heat storage microcapsule dispersion
Rotational viscometer
Effective viscosity

9-b

149

Technical program

28th SCEJ Students Meeting (online, 2026)

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