Divergent Michael/Aldol Cascades Under Semi-Aqueous Conditions: Synthesis of Cyclopenta- and Cycloheptannulated (Hetero)arenes

Maurya, Jay P.; Ramasastry, S. S. V.

doi:10.1021/acs.joc.0c02195

Cited by 3 publications

(3 citation statements)

References 51 publications

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“…Very recently, Maurya and Ramasastry delineated the one‐pot synthesis of 2,2‐disubstituted‐3‐acetoxyindanones 68 through a divergent annulation cascade reactions [50] . In the presence of cheap and easily available NaHCO 3 in aqueous medium, α‐substituted enone‐aldehydes 66 and 1,3‐dicarbonyls 67 undergo a Michael/aldol/hemiketalization/retro‐aldol cascade to accomplish indanones bearing a quaternary carbon (Scheme 22).…”

Section: Base‐catalyzed Synthesismentioning

confidence: 99%

Transition‐Metal‐Free Synthesis of 1‐Indanone Skeleton: A Brief Update

Das¹

2021

ChemistrySelect

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Transition‐metal‐free carbon‐carbon bond forming reactions have drawn great interest because they are operationally simple, cost‐effective and environmentally benign. However, the construction of indanone core under metal‐free condition has been long‐standing challenges to organic chemists. In this article, recent advances (2015–2021) in transition‐metal‐free strategies towards 1‐indanone skeletons are reviewed and they are classified as acid‐catalyzed, base‐catalyzed, organocatalytic and catalyst‐free methods. In most cases, mechanisms for the transformations and stereochemical aspects of the product formation have been demonstrated.

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Section: Base‐catalyzed Synthesismentioning

confidence: 99%

Transition‐Metal‐Free Synthesis of 1‐Indanone Skeleton: A Brief Update

Das¹

2021

ChemistrySelect

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“…To this end, chemoselective variation toward multifunctional substrates is generally a prerequisite to form precursors of the sequence. For instance, the intramolecular cyclization of enone-tethered electrophiles, such as aldehyde, ketone, enone, and nitro functionalities, provides a good setup for a Michael–Aldol coupling cascade reaction with nucleophiles to construct cyclic alcohol motifs. − However, such a Michael-addition-initiated cascade may be replaced by a nucleophilic attack on the more reactive electrophiles to alter the reaction sequence. , Despite a wealth of research on both cascades toward intramolecular enone-tethered aldehydes, transition-metal-catalyzed reductive cyclization remains less developed. Experimental investigations into the approach of chemoselective reductive cyclization and exploration of the different reactivities between two modes with the same catalyst would advance the potential of such strategies in depth.…”

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confidence: 99%

“…As a result of preliminary examinations, the reaction was carried out with CoI 2 (10 mol %), dcpp (15 mol %), indium powder (In) (40 mol %), and i -PrOH (10 equiv) in toluene at 80 °C for 24 h under argon (Table , entry 1). Instead of the cyclic alcohol upon a typical Michael–Aldol coupling cascade, , appreciable quantities of the indene counterpart 2a , featuring an indenyl 1 H NMR signal at δ 7.49 and δ 3.88, were formed. Notably, de Bruin reported the transformation of o -cinnamyl N -tosyl hydrazones to substituted 1 H -indenes, facilitated by the native reactivity of a Co(III) carbene radical intermediate .…”

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confidence: 99%

Cobalt-Catalyzed Chemoselective Transfer Hydrogenative Cyclization Cascade of Enone-Tethered Aldehydes

Jiang

et al. 2021

Org. Lett.

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The ligand-free Co-catalyzed chemoselective reductive cyclization cascade of enone-tethered aldehydes with i-PrOH as the environmentally benign hydrogen surrogate is developed by this study. Mechanistic studies disclosed that such a protocol is initiated by an ortho-enone-assisted Co(I)-catalyzed reduction of the aldehyde functionality with i-PrOH. Meanwhile, the selectivity from the Michael–Aldol cycloreduction cascade to the oxa-Michael cascade is feasible and readily adjusted by the addition of steric Lewis bases, such as TEMPO and DABCO, delivering substituted 1H-indenes and dihydroisobenzofurans, respectively.

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2,3‐Epoxyamide‐alcohols in Domino Reactions: En Route to Molecular Diversity

El Bouakher,

Lhoste,

Martel

et al. 2024

ChemistryOpen

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The synthesis of polycyclic γ‐ and δ‐lactams bearing up to four contiguous fully controlled stereocenters is presented. For that purpose, we developed an original approach based on the use of 2,3‐epoxyamides in domino reactions by taking advantage of the nucleophilic nitrogen atom and electrophilic epoxide. In reaction with enol ethers bearing gem bis‐electrophiles on the double bond as Michael acceptors, four different reaction pathways were observed. They all started with a domino oxa‐Michael/aza‐Michael/epoxide opening sequence and depending on substrates engaged could be followed either by a lactonization or a hemiketalization/retro‐aldol cascade. Thus, four original fully‐substituted piperidine‐ or pyrrolidine‐2‐one scaffolds were selectively synthesized in good to high yields. Moreover, these polycyclic lactams were obtained in high stereo‐ and chemo‐selectively highlighting the efficiency and molecular diversity offered by this new methodology that should offer various synthetic opportunities in the future.

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Divergent Michael/Aldol Cascades Under Semi-Aqueous Conditions: Synthesis of Cyclopenta- and Cycloheptannulated (Hetero)arenes

Cited by 3 publications

References 51 publications

Transition‐Metal‐Free Synthesis of 1‐Indanone Skeleton: A Brief Update

Transition‐Metal‐Free Synthesis of 1‐Indanone Skeleton: A Brief Update

Cobalt-Catalyzed Chemoselective Transfer Hydrogenative Cyclization Cascade of Enone-Tethered Aldehydes

2,3‐Epoxyamide‐alcohols in Domino Reactions: En Route to Molecular Diversity

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