Visible-Light-Induced, Metal-Free Carbene Insertion into B–H Bonds between Acylsilanes and Pinacolborane

Ye, Jian‐Heng; Quach, Linda; Paulisch, Tiffany O.; Glorius, Frank

doi:10.1021/jacs.9b08960

Cited by 101 publications

(51 citation statements)

References 51 publications

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“…If the above Norrish reactions took place from the singlet‐excited‐state of the alkanoylsilanes, triplet energy transfer methodology would be a reasonable solution to realize efficient generation of siloxycarbenes. Thus, we decided to develop the generation of siloxycarbenes 2 from alkanoylsilanes 1 through triplet energy transfer and tried to suppress undesired Norrish‐type fragmentations to expand synthetic utility of alkanoylsilanes.…”

Section: Methodsmentioning

confidence: 99%

“…In summary, we have realized the generation of siloxycarbenes from various alkanoylsilanes by visible‐light‐induced energy transfer, and this methodology was successfully applied to C−C coupling reactions with boronic esters or aldehydes. Noteworthy is that Norrish‐type fragmentations of alkanoylsilanes were shown to proceed mainly from singlet‐excited states and these undesired reactions were significantly suppressed by triplet sensitization.…”

Section: Methodsmentioning

confidence: 99%

“…Generally,N orrish-type fragmentations are known to take place both from singlet and triplet excited states of carbonyls, but in the reactions of alkanoylsilanes, clear evidence about which excited state is involved in Norrish-type reactions is not available in the literature. If the above Norrish reactions took place from the singlet-excited-state of the alkanoylsilanes, triplet energy transfer methodology would be ar easonable solution to realize efficient generation of siloxycarbenes.T hus, we decided to develop the generation of siloxycarbenes 2 from alkanoylsilanes 1 through triplet energy transfer [13] andt ried to suppress undesired Norrish-type fragmentations to expand synthetic utility of alkanoylsilanes.…”

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confidence: 99%

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Efficient Generation and Synthetic Applications of Alkyl‐Substituted Siloxycarbenes: Suppression of Norrish‐Type Fragmentations of Alkanoylsilanes by Triplet Energy Transfer

Ishida

Yamazaki

Hagiwara

et al. 2020

Chemistry A European J

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Acylsilanes have been knownt ou ndergo isomerizationt os iloxycarbenesu nder photoirradiation and the thus generated carbenes can be utilized for various synthetic reactions. But this carbene formation is not necessarily efficient with some alkanoylsilanes because Norrishtype fragmentations compete, which limit the synthetic utility of alkanoylsilanes as carbene precursors. In this study,g eneration of siloxycarbenes from alkanoylsilanes by visible-light-inducedenergyt ransfer was examined by using an Ir complex, [Ir{dF(CF 3 )ppy} 2 (dtbpy)]PF 6 ,a nd was successfully applied to the CÀCc oupling reactions with boronic esters or aldehydes. This methodology efficiently suppressed undesired Norrish-type reactions and broadened synthetic utility of alkanoylsilanes.Photocatalytic organic transformations have attracted significant attention in currents ynthetic chemistry.P hotoredox process involving ar adicali ntermediate is gaining importance in this field. [1] Another interesting aspect of photocatalytic reactions is triplet energy transfer processes which enableg eneration of triplet-excited states of organic substrates through energy transfer from photoexcited catalysts. [1b,c,e, 2] From as ynthetic point of view,t riplete nergy transfer is considered to have some benefits [3] as compared to direct photoexcitation of organic substrates:i )highly energetic singlet-excited states of substrates, whichs ometimes induce undesired reactions, can be avoided, and ii)ite nables excitationo fs ubstrates with longer wavelength light than the inherent absorption band of substrates.It has been known that triplet-excited states of acylsilanes 1 undergo a1 ,2-silyl migration to generatet ransienta nd nucleo-philic siloxycarbene intermediates 2 (Scheme 1a). [4] Since Brook and co-workers originally discoveredt his photoisomerization through reaction of siloxycarbene intermediates 2 with polar compounds such as alcohols over fifty years ago, [5] various synthetic reactions utilizingp hotochemically generated siloxycarbenes 2 have been developed by several groups [6] including us. [7] However, in contrast to the reactions of aroylsilanes (1, R 1 = aryl), the use of alkanoylsilanes (1,R 1 = alkyl) has been quite limited. [8] We have already reported intermolecularc oupling reactions of photochemically generated siloxycarbenes 2 with boronic esterso raldehydes under neutral or Lewis acidic conditions (Scheme 1b). [7] Duringt he course of these studies, we noticed that serious undesired photochemical processes competed with siloxycarbene formation in the reactions with somea lkanoylsilanes.F or example, UV irradiation( 365 nm) of am ixture of 4-phenylbutanoylsilane 1a [9] and boronic ester 5 gave styrene along with the desired coupling product 3a in low yield (Scheme 2). The formation of styrene clearly indicated that Norrish type II fragmentation [10,11] competed with the desired photochemical isomerization to siloxycarbene 2 from excited stateso falkanoylsilane 1a.Scheme1.a) Photochemical generation of siloxycarbenes. b) Photoi...

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

mentioning

confidence: 99%

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Efficient Generation and Synthetic Applications of Alkyl‐Substituted Siloxycarbenes: Suppression of Norrish‐Type Fragmentations of Alkanoylsilanes by Triplet Energy Transfer

Ishida

Yamazaki

Hagiwara

et al. 2020

Chemistry A European J

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“…41 The propensity of these species to undergo insertion chemistry has been known since their initial discovery, 46 but was recently exploited by Glorius and coworkers to generate silyl-protected α-boryl alcohols 49 (Scheme 13). 47 The mechanism of the reaction was elucidated by DFT calculations, which showed the formation of an intermediate triplet diradical species (47) that undergoes an α-elimination, followed by a 1,2-silyl shift to afford the corresponding αsiloxycarbene (48). The B-H insertion step was proposed to go through a concerted mechanism based on comparative DFT calculations of the two potential pathways.…”

Section: Siliconmentioning

confidence: 99%

Acyl metalloids: conformity and deviation from carbonyl reactivity

2021

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“…As depicted, the yield of 3 i could be enhanced to 82%, when the reaction was carried out in DCM. In addition, we also examined the influences of the wavelengths of the light sources, and the results revealed that the blue LEDs with wavelengths of 425 nm were still the best choice (Table 1, entries [11][12][13][14]. When the reaction was run in more concentrated solution, the yield of 3 i could be enhanced to 85% (Table 1, entry 10).…”

mentioning

confidence: 99%

Visible Light Enabled Formal Cross Silyl Benzoin Reaction as an Access to α‐Hydroxyketones

Yang

Xin

et al. 2021

Adv Synth Catal

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Visible-Light-Induced, Metal-Free Carbene Insertion into B–H Bonds between Acylsilanes and Pinacolborane

Cited by 101 publications

References 51 publications

Efficient Generation and Synthetic Applications of Alkyl‐Substituted Siloxycarbenes: Suppression of Norrish‐Type Fragmentations of Alkanoylsilanes by Triplet Energy Transfer

Efficient Generation and Synthetic Applications of Alkyl‐Substituted Siloxycarbenes: Suppression of Norrish‐Type Fragmentations of Alkanoylsilanes by Triplet Energy Transfer

Acyl metalloids: conformity and deviation from carbonyl reactivity

Visible Light Enabled Formal Cross Silyl Benzoin Reaction as an Access to α‐Hydroxyketones

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