Asymmetric Total Syntheses of Di‐ and Sesquiterpenoids by Catalytic C−C Activation of Cyclopentanones

Ruthenium(II)biscarboxylat-Komplexee rmçglichten eine selektive Alkylierung von C-H-und CC -Bindungen in der ortho-und der meta-Position. ortho-C-H-Alkyierungen wurden dabei mit 4-, 5-sowie6-gliedrigen Halocycloalkanen erzielt. Darüber hinaus erlaubte eine wohlüberlegte Wahl der dirigierenden Gruppe eine volle Kontrolle über die ortho-/ meta-Selektivität. Detaillierte mechanistische Studien durch Experimente und Berechnungen wurden durchgeführt und lieferten Hinweise füre inen Verlauf über oxidative Addition/ reduktive Eliminierung fürortho-Alkylierungen, während eine homolytischeC-X-Spaltung fürd ie meta-selektiven Reaktionen ablief. 2020 Die Autoren. Verçffentlicht von Wiley-VCH GmbH. Dieser Open Access Beitrag steht unter den Bedingungend er Creative Commons AttributionN on-CommercialL icense, die eine Nutzung, Verbreitung und Vervielfältigung in allen Medien gestattet, sofern der ursprüngliche Beitrag ordnungsgemäßzitiert und nicht fürkommerzielle Zwecke genutzt wird.

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Regiodivergente C‐H‐ und decarboxylierende C‐C‐Alkylierung mittels Rutheniumkatalyse: ortho‐ versus meta‐Regioselektivität

Korvorapun

Moselage

Struwe

et al. 2020

Angewandte Chemie

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Studies on the Lithiation, Borylation, and 1,2‐Metalate Rearrangement of O‐Cycloalkyl 2,4,6‐Triisopropylbenzoates

et al. 2021

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Ab road range of acyclic primary and secondary 2,4,6-triisopropylbenzoate( TIB) esters have been used in lithiation-borylation reactions,b ut cyclic TIB esters have not. We have studied the use of cyclic TIB esters in lithiationborylation reactions and looked at the effect of ring size (3-! 6-membered rings) on the three key steps of the lithiationborylation protocol:deprotonation, borylation and 1,2-metalate rearrangement. Although all rings sizes could be deprotonated, the cyclohexyl case was impractically slow,a nd the cyclopentyl example underwent a-elimination faster than deprotonation at À78 8 8Ca nd so could not be used. Both cyclobutyl and cyclopropyl cases underwent rapid borylation, but only the cyclobutyl substrate underwent 1,2-metalate rearrangement. Thus,t he cyclobutyl TIB ester occupies a" Goldilocks zone," being small enough for deprotonation and large enough to enable 1,2-migration. The generality of the reaction was explored with ab road range of boronic esters.

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Regiodivergent C−H and Decarboxylative C−C Alkylation by Ruthenium Catalysis: ortho versus meta Position‐Selectivity

et al. 2020

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Ruthenium(II)biscarboxylate complexes enabled the selective alkylation of CÀHa nd CÀCb onds at the ortho-or meta-position. ortho-CÀHA lkylations were achieved with 4-, 5-as well as 6-membered halocycloalkanes.F urthermore,t he judicious choice of the directing group allowed for af ull control of ortho-/meta-selectivities.D etailed mechanistic studies by experiment and computation were performed and provided strong support for an oxidative addition/reductive elimination process for ortho-alkylations,w hile ah omolytic CÀXc leavage was operative for the meta-selective transformations.

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Asymmetric Total Syntheses of Di‐ and Sesquiterpenoids by Catalytic C−C Activation of Cyclopentanones

Cited by 4 publications

References 142 publications

Regiodivergente C‐H‐ und decarboxylierende C‐C‐Alkylierung mittels Rutheniumkatalyse: ortho‐ versus meta‐Regioselektivität

Regiodivergente C‐H‐ und decarboxylierende C‐C‐Alkylierung mittels Rutheniumkatalyse: ortho‐ versus meta‐Regioselektivität

Studies on the Lithiation, Borylation, and 1,2‐Metalate Rearrangement of O‐Cycloalkyl 2,4,6‐Triisopropylbenzoates

Regiodivergent C−H and Decarboxylative C−C Alkylation by Ruthenium Catalysis: ortho versus meta Position‐Selectivity

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