Synthesis of the Brivaracetam Employing Asymmetric Photocatalysis and Continuous Flow Conditions

Franco, Marcelo S.; Silva, Rodrigo C.; Rosa, Gabriel H. S.; Flores, Lara M.; de Oliveira, Kleber T.; de Assis, Francisco F.

doi:10.1021/acsomega.3c02134

Cited by 4 publications

(5 citation statements)

References 36 publications

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“…The solvent was removed under vacuum, and the crude product was purified by flash chromatography on silica gel (EtOAc/hexane) to produce α,β-unsaturated alkenes 1a – i . The NMR spectra of the compounds corroborate the data found in the literature, 25 with exception of compounds 1d and 1h that have not been described so far.…”

Section: Methodssupporting

confidence: 88%

“…A huge variety of asymmetric catalysts have been devised for promoting enantioselective conjugate addition reactions, and our main focus was to employ a catalytic system with a strong background of elevated enantioselectivity associated with low catalyst loading. Recently, we have reported a new enantioselective synthesis of the active pharmaceutical ingredient (API) brivaracetam, using a “chiral-at-metal” catalyst developed by Meggers’ group . In several works reported, − including ours, this catalyst demonstrated very good levels of stereoinduction, so we decided to evaluate if it would suit our purposes in this work.…”

mentioning

confidence: 99%

“…Recently, we have reported a new enantioselective synthesis of the active pharmaceutical ingredient (API) brivaracetam, using a “chiral-at-metal” catalyst developed by Meggers’ group. 14 In several works reported, 15 − 20 including ours, this catalyst demonstrated very good levels of stereoinduction, so we decided to evaluate if it would suit our purposes in this work.…”

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confidence: 99%

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Highly Enantioselective Lewis Acid Catalyzed Conjugate Addition of Imidazo[1,2-a]pyridines to α,β-Unsaturated 2-Acylimidazoles under Mild Conditions

C. Thedy,

Pereira,

dos Santos

et al. 2024

J. Org. Chem.

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A highly enantioselective protocol for the conjugate addition of 2-arylimidazo[1,2-a]pyridines and other imidazo derivatives to α,β-unsaturated 2-acylimidazoles is described. The method uses a previously reported chiral-at-metal rhodium catalyst and provides the corresponding adducts in yields of 25−98% with enantioselectivities up to er > 99:1. Additionally, the transformation proceeds under mild conditions using ethanol as the solvent at room temperature.

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Section: Methodssupporting

confidence: 88%

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confidence: 99%

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confidence: 99%

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Highly Enantioselective Lewis Acid Catalyzed Conjugate Addition of Imidazo[1,2-a]pyridines to α,β-Unsaturated 2-Acylimidazoles under Mild Conditions

C. Thedy,

Pereira,

dos Santos

et al. 2024

J. Org. Chem.

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“…Subsequently, an alternative strategy to prepare the antiepileptic API brivaracetam ( 79 ), used in the treatment of drug-resistant epilepsy, 85 was described by de Assis group with our collaboration. 86 The key step in the synthesis involved a continuous enantioselective visible-light mediated Giese addition between 75 and 76 , promoted by the chiral rhodium photocatalyst 77 , affording intermediate 78 in 98% yield and an enantiomeric ratio of 96 : 4 (Scheme 17). The scale up of this protocol was also carried out at 5 mmol, affording 1.7 g of the desired compound without almost any loss in yield and enantioselectivity (94% yield and 94 : 6 e.r.).…”

Section: Continuous Photoflow Reactionsmentioning

confidence: 99%

Continuous flow reactions in the preparation of active pharmaceutical ingredients and fine chemicals

Martins,

Braga,

de Castro

et al. 2024

Chem. Commun.

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“…Accordingly, the development of a practical synthetic process for Brivaracetam has been in demand and attracting considerable interest. In 2023, de Assis and coworkers reported the first application of asymmetric photocatalysis in continuous flow for the enantioselective synthesis of Brivaracetam ( Figure 13B ) ( Franco et al, 2023 ) The key step in this synthesis is the enantioselective photochemical Giese 1,4-addition of BocNHCH 2 radical, generated from Hantzsch ester 13-B2 , to n -hex-2-enoylimidazole 13-B1 , promoted by visible-light and chiral bifunctional Rh photocatalyst Δ-RhS , to give the key intermediate 13B ( de Assis et al, 2018 ). The key parameters for this photocatalysis were investigated and optimized in batch reactions to afford the key intermediate 13B with 99% yield and 96% e. e. The reaction conditions were further tuned for the continuous flow process and the reaction with a flow rate of 1.0 mL/min and 4% catalytic loading of photocatalyst Δ-RhS at 40°C afforded 13B in 95% yield and 95% e.e.…”

Section: Asymmetric Catalysis In Continuous Flow Systemmentioning

confidence: 99%

Recent advances in catalytic asymmetric synthesis

Garg,

Rendina,

Bendale

et al. 2024

Front. Chem.

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Asymmetric catalysis stands at the forefront of modern chemistry, serving as a cornerstone for the efficient creation of enantiopure chiral molecules characterized by their high selectivity. In this review, we delve into the realm of asymmetric catalytic reactions, which spans various methodologies, each contributing to the broader landscape of the enantioselective synthesis of chiral molecules. Transition metals play a central role as catalysts for a wide range of transformations with chiral ligands such as phosphines, N-heterocyclic carbenes (NHCs), etc., facilitating the formation of chiral C-C and C-X bonds, enabling precise control over stereochemistry. Enantioselective photocatalytic reactions leverage the power of light as a driving force for the synthesis of chiral molecules. Asymmetric electrocatalysis has emerged as a sustainable approach, being both atom-efficient and environmentally friendly, while offering a versatile toolkit for enantioselective reductions and oxidations. Biocatalysis relies on nature’s most efficient catalysts, i.e., enzymes, to provide exquisite selectivity, as well as a high tolerance for diverse functional groups under mild conditions. Thus, enzymatic optical resolution, kinetic resolution and dynamic kinetic resolution have revolutionized the production of enantiopure compounds. Enantioselective organocatalysis uses metal-free organocatalysts, consisting of modular chiral phosphorus, sulfur and nitrogen components, facilitating remarkably efficient and diverse enantioselective transformations. Additionally, unlocking traditionally unreactive C-H bonds through selective functionalization has expanded the arsenal of catalytic asymmetric synthesis, enabling the efficient and atom-economical construction of enantiopure chiral molecules. Incorporating flow chemistry into asymmetric catalysis has been transformative, as continuous flow systems provide precise control over reaction conditions, enhancing the efficiency and facilitating optimization. Researchers are increasingly adopting hybrid approaches that combine multiple strategies synergistically to tackle complex synthetic challenges. This convergence holds great promise, propelling the field of asymmetric catalysis forward and facilitating the efficient construction of complex molecules in enantiopure form. As these methodologies evolve and complement one another, they push the boundaries of what can be accomplished in catalytic asymmetric synthesis, leading to the discovery of novel, highly selective transformations which may lead to groundbreaking applications across various industries.

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Synthesis of the Brivaracetam Employing Asymmetric Photocatalysis and Continuous Flow Conditions

Cited by 4 publications

References 36 publications

Highly Enantioselective Lewis Acid Catalyzed Conjugate Addition of Imidazo[1,2-a]pyridines to α,β-Unsaturated 2-Acylimidazoles under Mild Conditions

Highly Enantioselective Lewis Acid Catalyzed Conjugate Addition of Imidazo[1,2-a]pyridines to α,β-Unsaturated 2-Acylimidazoles under Mild Conditions

Continuous flow reactions in the preparation of active pharmaceutical ingredients and fine chemicals

Recent advances in catalytic asymmetric synthesis

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