Recent advances in photo- and electro-enabled radical silylation

Ren, Lei; Li, Na; Ke, Jie; He, Chuan

doi:10.1039/d2qo01387h

Cited by 58 publications

(29 citation statements)

References 113 publications

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“…Recent studies show a possible hydrosilylation of alkynes via the electrochemical reaction pathway [167] . However, the oxidation of Si−B bonds is beyond the scope of our review and has been already discussed elsewhere [35] …”

Section: Electrochemical Silane Synthesismentioning

confidence: 93%

General Concepts and Recent Advances in the Electrochemical Transformation of Chloro‐ and Hydrosilanes

2023

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Organosilanes play an important role in organic synthesis as well as in a variety of further areas, ranging from life science to transportation. Especially, the electrochemical access has become increasingly important in the past years and developed into an essential topic due to new conceptual approaches and mediated reaction control. With the commercial availability of high‐quality electrochemical equipment, the technical requirements for electro‐conversion are at hand to a wide audience. This results in the need for a concise survey of electrochemical silane transformation, appropriate for novices as well as experts alike. This review provides an overview of the most relevant work in this field, identifies common obstacles in working with chlorosilanes and hydrosilanes and bridges the gap between known techniques and novel methods with respect to their electrochemical conversion. The historical development is outlined with reference to the various cathodic as well as anodic conversions and should encourage to expand the research field of electrochemical silane transformation.

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Section: Electrochemical Silane Synthesismentioning

confidence: 93%

General Concepts and Recent Advances in the Electrochemical Transformation of Chloro‐ and Hydrosilanes

2023

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“…Hydrosilylation is an extremely important and atom-economical chemical transformation in manufacturing organosilicon materials and fine chemical synthesis, both in laboratory research and in large-scale industrial applications. 1 In the past few decades, a number of catalyst systems, including transition-metals, 2 rare earth metal complexes, 3 main-group metal catalysts, 4 and photocatalyst systems, 5 have been used in hydrosilylations through a range of silicon–hydrogen bond activation pathways, 6 expressed as single-electron processes or σ-bond metathesis, 7 2-electron metal-centered redox chemistry, 8 or Lewis acid site-involved hydride abstraction reactions. 9 In particular, inspired by the success of Karstedt's and Speier's catalysts which are the most commercially used complexes of platinum, transition-metal-catalyzed hydrosilylation has garnered tremendous attention in the last decade.…”

Section: Introductionmentioning

confidence: 99%

An unusualtrans-hydrosilylation of prochiral 1,1-disubstituted cyclopropenes revealing the different nature of asymmetric palladium and rhodium catalysis

et al. 2023

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“…2 Notably, this strategy has been extended to the formation of a C−Si bond, where a silyl radical is generated in situ under green and mild conditions, which allows the subsequent introduction of a silyl group into a carbon skeleton with a high level of regiocontrol. 3 For example, in 2017, a visible-lightinduced photocatalytic hydrosilylation of alkenes was introduced by the Wu group, where hydrosilanes were employed to produce silyl radicals via an elegant hydrogen atom transfer (HAT) mechanism. 4 Along this line, various photocatalytic C−Si formation reactions have been disclosed for the construction of valuable silicon-containing architectures (Scheme 1a).…”

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confidence: 99%

Photocatalytic C–Si Bond Formations Using Pentacoordinate Silylsilicates as Silyl Radical Precursors: Synthetic Tricks Using Old Reagents

et al. 2023

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A visible-light-induced photocatalytic C–Si formation strategy has been disclosed by uncovering the reactivity of Martin’s spirosilane-derived pentacoordinate silylsilicates as silyl radical precursors. The hydrosilylation of a broad spectrum of alkenes and alkynes, as well as the C–H silylation of heteroarenes, has been demonstrated. Remarkably, Martin’s spirosilane was stable and could be recovered via a simple workup process. Furthermore, the reaction proceeded well using water as the solvent or low-energy green LEDs as an alternative energy source.

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Recent advances in photo- and electro-enabled radical silylation

Abstract: Given the rapid development of photocatalysis and electrocatalysis technology, and the importance of organosilicon compounds in the fields of materials science, synthetic chemistry, and agrochemistry, the photo- and electro-enabled radical...

Cited by 58 publications

References 113 publications

General Concepts and Recent Advances in the Electrochemical Transformation of Chloro‐ and Hydrosilanes

General Concepts and Recent Advances in the Electrochemical Transformation of Chloro‐ and Hydrosilanes

An unusualtrans-hydrosilylation of prochiral 1,1-disubstituted cyclopropenes revealing the different nature of asymmetric palladium and rhodium catalysis

Photocatalytic C–Si Bond Formations Using Pentacoordinate Silylsilicates as Silyl Radical Precursors: Synthetic Tricks Using Old Reagents

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