Takahiko Akiyama

(秋山隆彦)

Profile Information

Affiliation: Faculty of Science, Department of Chemistry, Gakushuin University

J-GLOBAL ID: 200901007447424579
researchmap Member ID: 1000167339

Research Interests

Research Areas

Research History

Apr, 1997 - Present

Professor, Department of Chemistry, Faculty of Science, Gakushuin University
Apr, 1994 - Mar, 1997

Associate Professor, Department of Chemistry, Gakushuin University
Jul, 1988 - Mar, 1994

Assistant Professor, Department of Resources Chemistry, Faculty of Engineering, Ehime University
Apr, 1992 - Mar, 1993

Visiting Scholar, Department of Chemistry, Stanford University
Apr, 1985 - Jun, 1988

Research Chemist, Shionogi Research Laboratories, Shionogi & Co., Ltd.

Education

- 1985

The University of Tokyo
- 1985

Graduate School, Division of Science, The University of Tokyo
- 1980

Department of Chemistry, Faculty of Science, The University of Tokyo
- 1980

Faculty of Science, The University of Tokyo

Committee Memberships

Feb, 2021 - Feb, 2023

会長, 有機合成化学協会
Apr, 2018 - Mar, 2022

学術システム研究センター主任研究員, 独立行政法人日本学術振興会
May, 2018 - May, 2020

理事, 日本化学会

Awards

Feb, 2018

Synthetic Organic Chemistry Award, Japan, The Society of Synthetic Organic Chemistry, Japan

AKIYAMA Takahiko
Aug, 2016

Arthur C. Cope Scholar Award, American Chemical Society

AKIYAMA Takahiko
Mar, 2016

Humboldt Research Award, Humboldt Foundation

AKIYAMA Takahiko
Nov, 2012

Nagoya Silver Medal, Banyu Life Science Foundation International

AKIYAMA Takahiko
Mar, 2009

The Chemical Society of Japan Award for Creative Work for 2009, The Chemical Society of Japan

Papers

2‐Silylated Dihydroquinazolinone as a Photocatalytic Energy Transfer Enabled Radical Hydrosilylation Reagent

Tatsuhiro Uchikura, Haruka Nakamura, Hinata Sakai, Takahiko Akiyama

Chemistry – A European Journal, 29(45), Jul 17, 2023

Abstract The hydrosilylation of alkenes is one of the most important methods for the synthesis of organosilicon compounds. In addition to the platinum‐catalyzed hydrosilylation, silyl radical addition reactions are notable as economic reactions. An efficient and widely applicable silyl radical addition reaction was developed by using 2‐silylated dihydroquinazolinone derivatives under photocatalytic conditions. Electron‐deficient alkenes and styrene derivatives underwent hydrosilylation to give addition products in good to high yields. Mechanistic studies indicated that the photocatalyst functioned not as a photoredox catalyst but as an energy transfer catalyst. DFT calculations clarified that the triplet excited state of 2‐silylated dihydroquinazolinone derivatives released a silyl radical through the homolytic cleavage of a carbon‐silicon bond, and this was followed by the hydrogen atom transfer pathway, not the redox pathway.
Chiral Phosphoric Acid–Palladium(II) Complex Catalyzed Asymmetric Desymmetrization of Biaryl Compounds by C(sp³)–H Activation

Tatsuhiro Uchikura, Sotaro Kato, Yudai Makino, Megumi J. Fujikawa, Masahiro Yamanaka, Takahiko Akiyama

Journal of the American Chemical Society, 145(29) 15906-15911, Jul 13, 2023
分子内の酸化還元を介するC（sp3）-H結合官能基化型環化反応

森啓二, 秋山隆彦

有機合成化学協会誌, 81(6) 582-593, Jun, 2023 Peer-reviewed
Enantioselective Synthesis of an All-Carbon Quaternary Stereocenter by Chiral Brønsted Acid-Catalyzed Friedel–Crafts-Type Reaction between Pyrroles and 3-Indolylmethanols

Tatsuhiro Uchikura, Irene Sánchez-Sordo, Tatsuhiko Yoshimura, Yudai Makino, Hiroto Osakabe, Takahiko Akiyama

The Journal of Organic Chemistry, 88(12) 7774-7783, Apr 12, 2023
Dual-Role Halogen-Bonding-Assisted EDA-SET/HAT Photoreaction System with Phenol Catalyst and Aryl Iodide: Visible-Light-Driven Carbon–Carbon Bond Formation

Tatsuhiro Uchikura, Kazushi Tsubono, Yurina Hara, Takahiko Akiyama

The Journal of Organic Chemistry, 87(22) 15499-15510, Nov 2, 2022

Misc.

209

Chiral Magnesium Bisphosphate-Catalyzed Asymmetric Double C(sp3)-H Bond Functionalization Based on Sequential Hydride Shift/Cyclization Process

Keiji Mori, Ryo Isogai, Yuto Kamei, Masahiro Yamanaka, Takahiko Akiyama

Journal of the American Chemical Society, 140(20) 6203-6207, May 23, 2018

Described herein is a chiral magnesium bisphosphate-catalyzed asymmetric double C(sp3)-H bond functionalization triggered by a sequential hydride shift/cyclization process. This reaction consists of stereoselective domino C(sp3)-H bond functionalization: (1) a highly enantio- and diastereoselective C(sp3)-H bond functionalization by chiral magnesium bisphosphate (first [1,5]-hydride shift), and (2) a highly diastereoselective C(sp3)-H bond functionalization by an achiral catalyst (Yb(OTf)3, second [1,5]-hydride shift).
Asymmetric Reduction of Trifluoromethyl Alkynyl Ketimines by Chiral Phosphoric Acid and Benzothiazoline

Masamichi Miyagawa, Kensuke Takashima, Takahiko Akiyama

Synlett, May 16, 2018

Copyright © 2018, Georg Thieme Verlag. All rights reserved. An enantioselective transfer hydrogenation reaction of alkynyl ketimine bearing a trifluoromethyl group was accomplished. Chemoselective reduction of ketimine was achieved by the combined use of chiral phosphoric acid and benzothiazoline to give α-trifluoromethyl propargylamine in good to high yields and with excellent enantioselectivity.
Tishchenko reaction using substoichiometric amount of metallic zinc

Masamichi Miyagawa, Takahiko Akiyama

Chemistry Letters, 47(1) 78-81, 2018

The Tishchenko reaction is one of the useful methods for ester synthesis. Intra- and intermolecular Tishchenko reactions using metallic zinc are described. A practical Tishchenko reaction using metallic zinc was applied to various benzaldehydes to give products in good to excellent yields (up to 95%). A sequential reaction with Ullmann coupling afforded lactones in high yields from 2-bromobenzaldehyde derivatives.
Enantioselective Transfer Hydrogenation Reaction by Means of Chiral Bronsted Acid

46(3) 6-11, Mar, 2017
Highly Efficient Kinetic Resolution of PHANOL by Chiral Phosphoric Acid Catalyzed Asymmetric Acylation

Keiji Mori, Hiroki Kishi, Takahiko Akiyama

SYNTHESIS-STUTTGART, 49(2) 365-370, Jan, 2017

We report herein a highly efficient kinetic resolution of PHANOL by chiral phosphoric acid catalyzed asymmetric acylation. PHANOL enantiomers were well differentiated by the chiral environment of chiral phosphoric acid, and both the corresponding monoester and PHANOL were obtained with excellent enantioselectivities (98% ee and 92% ee, respectively). Detailed examination of the substrates suggests that the presence of two hydroxy groups in PHANOL was critical for both reactivity and enantioselectivity.

Books and Other Publications

Germaniium in Organic Synthesis in "Main Group Metals in Organic Synthesis"

Wiley-VCH, 2004 (ISBN: 3527305084)

Professional Memberships

Research Projects

New Development of Asymmetric Catalytic Reactions Using Chiral Phosphoric Acid

Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, Apr, 2020 - Mar, 2023
On-demand asymmetric synthesis using the cooperative system of chiral phosphoric acid and photoredox catalyst

Grants-in-Aid for Scientific Research, Japan Society for the Promotion of Science, Apr, 2020 - Mar, 2022
軸性不斉を有するキラルビアリールの回転障壁を下げることは可能か？

科学研究費補助金挑戦的研究（萌芽）, 日本学術振興会, Apr, 2018 - Mar, 2020

秋山隆彦
キラルリン酸およびその誘導体を用いた不斉合成反応の新展開

科学研究費補助金基盤研究（B）, 日本学術振興会, Apr, 2017 - Mar, 2020

秋山隆彦
NMRを用いた最適溶媒の予測

科学研究費補助金挑戦的萌芽, 日本学術振興会, Apr, 2016 - Mar, 2018

秋山隆彦

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