AKIZUKI Makoto

アキヅキマコト | AKIZUKI Makoto

Affiliation and department：

Research field (3)： Green/sustainable/environmental chemistry , Environmental load reduction/restoration technology , Chemical reaction and process system engineering

Research theme for competitive and other funds (7)：

2022 - 2023 超臨界メタノールと固体塩基触媒を利用した高速なバイオディーゼル燃料合成
2019 - 2023 Development of practical simulator to design crystallization and surface reaction process in supercritical fluids
2021 - 2022 原料多段供給を利用した流通式超臨界水熱合成法による金属酸化物微粒子の高速合成
2019 - 2020 超臨界メタノールを溶媒とした固体塩基触媒によるバイオディーゼル合成
2016 - 2017 高温高圧水の特徴的な物性の可変性を利用した有機合成反応の制御

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Papers (33)：

Luqing Qi, Bushra Al-Duri, Yoshito Oshima, Makoto Akizuki. Mechanism investigation of model protein during two-stage hydrothermal liquefaction: Effects of operated conditions in each stage. Fuel. 2025. 380. 133168-133168
Fei Li, Satoshi Kawajiri, Bushra Al-Duri, Yoshito Oshima, Makoto Akizuki. Recovery of saccharides from lipid-extracted microalgae residue via hot compressed water and its kinetic analysis. Biomass Conversion and Biorefinery. 2024
Yiqi Wang, Yoshito Oshima, Makoto Akizuki. Investigation for flavanone synthesis in subcritical water with La-ZrO2, Mg-ZrO2, and Ca-ZrO2 as solid base catalysts. The Journal of Supercritical Fluids. 2024. 211. 106295-106295
Shotaro Seki, Yoshito Oshima, Makoto Akizuki. Acid-Catalytic Effect of Alcohol Dissociation on Pinacol Rearrangement in Hot Compressed Water. Industrial & Engineering Chemistry Research. 2024. 63. 30. 13127-13133
Makoto Akizuki, Yuka Takahashi, Yiqi Wang, Yoshito Oshima. Investigation of the Basicity of ZrO<sub>2</sub> and Mg(OH)<sub>2</sub> Catalysts During the 2,5-Hexanedione Cyclization in Hot Compressed Water via Acid Poisoning. Industrial & Engineering Chemistry Research. 2024. 63. 24. 10554-10560

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MISC (16)：

秋月信. 水熱技術による微細藻類からの燃料抽出と残渣利用. エネルギー・資源. 2023. 44. 2. 107-110
秋月信. 化学工学年鑑2022 9.超臨界流体 9.4-2 バイオマス・天然化合物(反応). 化学工学. 2022. 86. 10. 512-513
Synthesis Using Hot and Compressed Water : Environmentally Friendly Chemical Synthesis Utilizing Solvent Properties. 2021. 44. 7. 206-209
秋月信. 化学工学年鑑2020 9.超臨界流体 9.3 材料・合成. 化学工学. 2020. 84. 10. 521-522
秋月信. 化学工学年鑑2019 9.超臨界流体 9.4-2 バイオマス・天然化合物(反応). 2019. 83. 10. 617-618

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Books (1)：

超臨界流体を用いる合成と加工
シーエムシー出版 2017 ISBN:9784781312682

Lectures and oral presentations (16)：

亜臨界水中の有機反応における酸化ジルコニウム系複合酸化物触媒の塩基性質と水の役割の検討
(化学工学会第55回秋季大会 2024)
高温高圧水中のBaTi3微粒子合成における二段階流通式反応装置を利用した粒径制御
(化学工学会第55回秋季大会 2024)
Effects of low temperature hydrothermal process on protein conversion during two-stage hydrothermal liquefaction
(SCEJ 55th Autumn Meeting 2024)
高温高圧水-メタノールの溶媒組成が酸触媒反応に与える影響の速度論的検討
(化学工学会第55回秋季大会 2024)
Study of the Solvation Models for the Decarboxylation of Phthalic Acid in Supercritical Water
(SCEJ 89th Annual Meeting 2024)

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Education (3)：

2008 - 2013 The University of Tokyo Graduate School of Frontier Sciences Department of Environment Systems
2006 - 2008 The University of Tokyo The Faculty of Engineering Department of Chemical System Engineering
2004 - 2006 The University of Tokyo

Work history (4)：

2023/04 - 現在 The University of Tokyo Graduate School of Frontier Sciences Associate Professor
2018/04 - 2023/03 The University of Tokyo Graduate School of Frontier Sciences
2013/04 - 2018/03 The University of Tokyo Graduate School of Frontier Sciences
2018 - The University of Tokyo

Awards (7)：

2022/10 - The 12th International Conference on Supercritical Fluids (Supergreen 2022) BEST ORAL PRESENTATION AWARD
2019/08 - 公益財団法人クリタ水・環境科学振興財団研究優秀賞高温高圧水の特徴的な物性の可変性を利用した有機合成反応の制御
2018 - Industrial & Engineering Chemistry Research Class of Influential Researchers
2012/09 - 化学工学会超臨界流体部会第44回化学工学会秋季大会超臨界流体部会主催シンポジウム学生賞高温高圧水中における固体酸触媒反応に対する水の効果
2011/09 - 化学工学会超臨界流体部会第43回化学工学会秋季大会超臨界流体部会主催シンポジウム学生賞高温高圧水中におけるグリセリンの固体酸触媒反応

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Association Membership(s) (2)：

触媒学会 , 化学工学会

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