Metal-free access to β-carbolines via single-electron transfer catalyzed by a triaryl carbenium ion pair

Zhenguo Zhang; Jun Gu; Yongheng Lv; Liang Ji; Xiaoxiao Liu; Beishen Wu; Fang Liu; Zhenhua Jia; Teck Peng Loh

doi:10.1016/j.xcrp.2023.101246

Metal-free access to β-carbolines via single-electron transfer catalyzed by a triaryl carbenium ion pair

Zhenguo Zhang, Jun Gu, Yongheng Lv, Liang Ji, Xiaoxiao Liu, Beishen Wu, Fang Liu^*, Zhenhua Jia^*, Teck Peng Loh^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

16 Citations (Scopus)

Abstract

The β-carboline moiety exists in a wide range of drugs and natural products, but synthesis often relies on noble metals and stochiometric oxidants. Here, we develop a metal-free strategy using a triaryl carbenium ion pair as a catalyst to access β-carbolines from tryptamines and aromatic aldehydes. This protocol exhibits excellent functional group tolerance, and its practicality is demonstrated with the preparation of Eudistomin U and fluorescent compounds on gram scales. Mechanistic studies reveal that the trityl radical is generated via a single-electron transfer process and subsequently trapped by an oxygen molecule. In addition, the in-situ-generated reactive oxygen-centered radical is also found to be essential for the efficient dehydroaromatization process to afford the desired products.

Original language	English
Article number	101246
Journal	Cell Reports Physical Science
Volume	4
Issue number	2
DOIs	https://doi.org/10.1016/j.xcrp.2023.101246
Publication status	Published - Feb 15 2023
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2023 The Authors

ASJC Scopus Subject Areas

General Chemistry
General Materials Science
General Engineering
General Energy
General Physics and Astronomy

Keywords

DFT calculations
ion pair
single-electron transfer
trityl radical
β-carbolines

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10.1016/j.xcrp.2023.101246

Cite this

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title = "Metal-free access to β-carbolines via single-electron transfer catalyzed by a triaryl carbenium ion pair",

abstract = "The β-carboline moiety exists in a wide range of drugs and natural products, but synthesis often relies on noble metals and stochiometric oxidants. Here, we develop a metal-free strategy using a triaryl carbenium ion pair as a catalyst to access β-carbolines from tryptamines and aromatic aldehydes. This protocol exhibits excellent functional group tolerance, and its practicality is demonstrated with the preparation of Eudistomin U and fluorescent compounds on gram scales. Mechanistic studies reveal that the trityl radical is generated via a single-electron transfer process and subsequently trapped by an oxygen molecule. In addition, the in-situ-generated reactive oxygen-centered radical is also found to be essential for the efficient dehydroaromatization process to afford the desired products.",

keywords = "DFT calculations, ion pair, single-electron transfer, trityl radical, β-carbolines",

author = "Zhenguo Zhang and Jun Gu and Yongheng Lv and Liang Ji and Xiaoxiao Liu and Beishen Wu and Fang Liu and Zhenhua Jia and Loh, \{Teck Peng\}",

note = "Publisher Copyright: {\textcopyright} 2023 The Authors",

year = "2023",

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doi = "10.1016/j.xcrp.2023.101246",

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AU - Zhang, Zhenguo

AU - Gu, Jun

AU - Lv, Yongheng

AU - Ji, Liang

AU - Liu, Xiaoxiao

AU - Wu, Beishen

AU - Liu, Fang

AU - Jia, Zhenhua

AU - Loh, Teck Peng

PY - 2023/2/15

Y1 - 2023/2/15

N2 - The β-carboline moiety exists in a wide range of drugs and natural products, but synthesis often relies on noble metals and stochiometric oxidants. Here, we develop a metal-free strategy using a triaryl carbenium ion pair as a catalyst to access β-carbolines from tryptamines and aromatic aldehydes. This protocol exhibits excellent functional group tolerance, and its practicality is demonstrated with the preparation of Eudistomin U and fluorescent compounds on gram scales. Mechanistic studies reveal that the trityl radical is generated via a single-electron transfer process and subsequently trapped by an oxygen molecule. In addition, the in-situ-generated reactive oxygen-centered radical is also found to be essential for the efficient dehydroaromatization process to afford the desired products.

AB - The β-carboline moiety exists in a wide range of drugs and natural products, but synthesis often relies on noble metals and stochiometric oxidants. Here, we develop a metal-free strategy using a triaryl carbenium ion pair as a catalyst to access β-carbolines from tryptamines and aromatic aldehydes. This protocol exhibits excellent functional group tolerance, and its practicality is demonstrated with the preparation of Eudistomin U and fluorescent compounds on gram scales. Mechanistic studies reveal that the trityl radical is generated via a single-electron transfer process and subsequently trapped by an oxygen molecule. In addition, the in-situ-generated reactive oxygen-centered radical is also found to be essential for the efficient dehydroaromatization process to afford the desired products.

KW - DFT calculations

KW - ion pair

KW - single-electron transfer

KW - trityl radical

KW - β-carbolines

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Metal-free access to β-carbolines via single-electron transfer catalyzed by a triaryl carbenium ion pair

Abstract

Bibliographical note

ASJC Scopus Subject Areas

Keywords

Access to Document

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