Visible‐Light‐Mediated Metal‐Free Hydrosilylation of Alkenes through Selective Hydrogen Atom Transfer for Si−H Activation

Zhou, Rong; Goh, Yi Yiing; Liu, Haiwang; Tao, Hairong; Li, Lihua; Wu, Jie

doi:10.1002/anie.201711250

Cited by 173 publications

(106 citation statements)

References 41 publications

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“… Representative scope of metal‐free hydrosilylation of electron‐deficient alkenes. [a] Reactions carried out in stop‐flow microtubing (SFMT) reactors …”

Section: Hydrosilylation Via Photo‐generated Silyl Radicalsmentioning

confidence: 99%

“…In 2017, Wu group demonstrated the visible-light mediated metal free hydrosilylation of both electron-deficient and electron-rich alkenes. [19] The hydrosilylation of electron-deficient alkenes was accomplished through SiÀH activation by merging organophotocatalyst 1,2,3,5-tetrakis (carbazol-9-yl)-4,6-dicyanobenzene (4CzIPN) and quinuclidinium HAT catalyst (Scheme 6). Hydrosilylation product was obtained using trialkyl silanes without any CÀH activation by-products, highlighting the effectiveness of this electron-deficient HAT catalyst for the selective SiÀH activation.…”

Section: Hydrosilylation Of Alkenes Via Indirect Hat Photocatalysismentioning

confidence: 99%

“…[a] Reactions carried out in stop-flow microtubing (SFMT) reactors. [19] Scheme 7. Plausible mechanism for the hydrosilylation of electron-poor alkenes.…”

Section: Hydrosilylation Of Alkenes Via Indirect Hat Photocatalysismentioning

confidence: 99%

“…[18] To the best of our knowledge, there is no recent review on photo generation of silyl radicals with or without the aid of catalysts. In line with our recent work on visible-light mediated metalfree hydrosilylation, [19] this mini review seeks to showcase the recent development on photo-mediated generation of silyl radicals and their application in organic synthesis.…”

Section: Introductionmentioning

confidence: 99%

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Recent Developments in the Photo‐Mediated Generation of Silyl Radicals and Their Application in Organic Synthesis

2018

ChemPhotoChem

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“… Representative scope of metal‐free hydrosilylation of electron‐deficient alkenes. [a] Reactions carried out in stop‐flow microtubing (SFMT) reactors …”

Section: Hydrosilylation Via Photo‐generated Silyl Radicalsmentioning

confidence: 99%

Section: Hydrosilylation Of Alkenes Via Indirect Hat Photocatalysismentioning

confidence: 99%

“…[a] Reactions carried out in stop-flow microtubing (SFMT) reactors. [19] Scheme 7. Plausible mechanism for the hydrosilylation of electron-poor alkenes.…”

Section: Hydrosilylation Of Alkenes Via Indirect Hat Photocatalysismentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Recent Developments in the Photo‐Mediated Generation of Silyl Radicals and Their Application in Organic Synthesis

2018

ChemPhotoChem

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103

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“…[5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20] Ther eagents that are typically involved in these processes include heteroatomcentered radicals and radical ions,p hotoexcited species and photocatalysts (carbonyl compounds,polyoxometalates), biocatalysts (cytochrome P450 and oxygenases) and bioinspired catalysts,a swell as closed-shell species such as dioxiranes. [5][6][7][8][9][10][11][12][13][14][15][16][17][18][19][20] Ther eagents that are typically involved in these processes include heteroatomcentered radicals and radical ions,p hotoexcited species and photocatalysts (carbonyl compounds,polyoxometalates), biocatalysts (cytochrome P450 and oxygenases) and bioinspired catalysts,a swell as closed-shell species such as dioxiranes.…”

Section: Introductionmentioning

confidence: 99%

Activation and Deactivation Strategies Promoted by Medium Effects for Selective Aliphatic C−H Bond Functionalization

Bietti

2018

Angew Chem Int Ed

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Selective functionalization of unactivated aliphatic C-H bonds represents an important goal of modern synthetic chemistry. Differentiating between such bonds in organic molecules with high levels of selectivity remains a crucial issue, and a profound understanding of even the subtlest reactivity trends is needed. Among the methods that have been developed, those based on hydrogen atom transfer (HAT) have attracted considerable interest. Within this framework, medium effects have proved effective in altering the reactivity and site selectivity in synthetically useful C-H functionalization procedures. In this Review, the mechanistic features behind the available strategies are discussed. It is shown that hydrogen bonding and acid-base interactions can promote C-H bond activation or deactivation toward HAT reagents, thereby providing fine-control over the site selectivity and product chemoselectivity as well as useful guidelines for future development and applications.

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Preparation of 2,4,5,6‐Tetra(9H‐Carbazol‐9‐yl)Isophthalonitrile

Engle

2020

Organic Syntheses

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This article describes the procedure for preparation of 2,4,5,6‐tetra(9H‐carbazol‐9‐yl) isophthalonitrile. It presents some of the important points to be considered, the conditions that need to be maintained, characterization data, and the reagents required, as well as the techniques used and the equipment setup that are vital to carrying out the process. Prior to performing each reaction, a thorough hazard analysis and risk assessment should be carried out with regard to each chemical substance and experimental operation on the scale planned and in the context of the laboratory where the procedures will be carried out. The article also describes the hazards associated with working with chemicals and the ways to deal with these hazards.

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Visible‐Light‐Mediated Metal‐Free Hydrosilylation of Alkenes through Selective Hydrogen Atom Transfer for Si−H Activation

Cited by 173 publications

References 41 publications

Recent Developments in the Photo‐Mediated Generation of Silyl Radicals and Their Application in Organic Synthesis

Recent Developments in the Photo‐Mediated Generation of Silyl Radicals and Their Application in Organic Synthesis

Activation and Deactivation Strategies Promoted by Medium Effects for Selective Aliphatic C−H Bond Functionalization

Preparation of 2,4,5,6‐Tetra(9H‐Carbazol‐9‐yl)Isophthalonitrile

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