Yada Akira

ヤダアキラ | Yada Akira

Affiliation and department：

Research field (1)： Synthetic organic chemistry

Research keywords (5)：有機金属化学 , 遷移金属触媒 , 機械学習 , 触媒 , 有機合成

Research theme for competitive and other funds (8)：

2021 - 2026 Development of automated catalyst design methodology based on inversed analysis of predictive model
2021 - 2026 Digitalization-driven Transformative Organic Synthesis (Digi-TOS)
2020 - 2023 Data-Driven Descriptor Generation and its Application to Prediction of Organic Synthetic and Catalytic Reactions
2015 - 2020 Development of Molecular Transformations by Means of Light and Metals Directing towards Straightforward Synthesis
2016 - 2019 カルボニル化合物やアミン化合物のsp3炭素-水素結合を官能基化する新戦略の実践

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Papers (28)：

Risa Araki, Akira Yada, Hirotsugu Ueda, Kenichi Tominaga, Hiroko Isoda. Differences in the Effects of Anthocyanin Supplementation on Glucose and Lipid Metabolism according to the Structure of the Main Anthocyanin: A Meta-Analysis of Randomized Controlled Trials. Nutrients. 2021. 13. 6. 2003
Yoshihiro Kon, Takuya Nakashima, Akira Yada, Tadahiro Fujitani, Shun-Ya Onozawa, Shū Kobayashi, Kazuhiko Sato. Pt-Catalyzed selective oxidation of alcohols to aldehydes with hydrogen peroxide using continuous flow reactors. Organic & biomolecular chemistry. 2021. 19. 5. 1115-1121
Akira Yada, Kazuhiko Sato, Tarojiro Matsumura, Yasunobu Ando, Kenji Nagata, Sakina Ichinoseki. Ensemble Learning Approach with LASSO for Predicting Catalytic Reaction Rates. Synlett. 2020
Akira Yada, Shoki Nishi, Yuta Sato, Sakina Ichinoseki, Masahiro Murakami. Palladium-Catalyzed Dehydrogenative Coupling Reaction of Terminal Alkynes with Unactivated Alkenes. Journal of the Chinese Chemical Society. 2018. 65. 1. 117-121
Akira Yada, Kenji Nagata, Yasunobu Ando, Tarojiro Matsumura, Sakina Ichinoseki, Kazuhiko Sato. Machine learning approach for prediction of reaction yield with simulated catalyst parameters. Chemistry Letters. 2018. 47. 3. 284-287

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MISC (3)：

今喜裕, 中島拓哉, 矢田陽, 藤谷忠博, 小野澤俊也, 小林修, 小林修, 佐藤一彦. Selective flow oxidation of alcohol to aldehyde using hydrogen peroxide. 酸化反応討論会講演要旨集. 2020. 53rd
Kon Yoshihiro, Yada Akira, Nakamura Yoichi, Fujitani Tadahiro, Nakashima Takuya, Murayama Toru, Ueda Wataru. Selective dehydrative allylation using TiO₂ supported MoO₃ catalyst. Proc. JPI. 2018. 2018. 0
矢田陽, 村山徹, 平田純, 中島拓哉, 今喜裕, 上田渉. W-Ti-O複合金属酸化物触媒によるアルコールの脱水交差エーテル化反応. 触媒討論会討論会A予稿集. 2017. 120th

Patents (4)：

Books (9)：

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Lectures and oral presentations (25)：

キャタリストインフォマティクスによる触媒設計
(第16回ケムステVシンポ「マテリアルズインフォマティクス?なにそれおいしいの?」 2021)
研究現場でのAI活用について
(化学・創薬メーカーのDXー研究現場のAI活用とAI人材育成についてー 2021)
キャタリストインフォマティクスによる触媒活性予測
(「R&D懇話会214回」AI を活用した研究開発の現状と展望~超超PJ における研究事例~ 2021)
分子機能予測のための人工知能技術
(第4回食・触コンソーシアムシンポジウム 2021)
キャタリストインフォマティクスによる触媒活性予測
(第14回触媒劣化セミナー 2021)

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Education (2)：

2005 - 2010 Kyoto University Graduate School of Engineering Department of Material Chemistry
2001 - 2005 Kyoto University Faculty of Engineering School of Industrial Chemistry

Professional career (1)：

Work history (4)：

2018/10 - 現在 National Institute of Advanced Industrial Science and Technology
2016/04 - 2018/09 National Institute of Advanced Industrial Science and Technology
2011/06 - 2016/03 Kyoto University Graduate School of Engineering, Department of Synthetic Chemistry and Biological Chemistry
2010/04 - 2011/06 Max-Planck-Institut für Kohlenforschung PosDoc

Committee career (1)：

Awards (1)：

Association Membership(s) (4)：

CATALYSIS SOCIETY OF JAPAN , THE JAPAN PETROLEUM INSTITUTE , THE SOCIETY OF SYNTHETIC ORGANIC CHEMISTRY, JAPAN , THE CHEMICAL SOCIETY OF JAPAN

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