Recent Advances in C–H Activation for the Synthesis of π-Extended Materials

Stepek, Iain A.; Itami, Kenichiro

doi:10.1021/acsmaterialslett.0c00206

Cited by 109 publications

(52 citation statements)

References 277 publications

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“…[3][4][5][6][7][8] The direct C-H arylation of heteroarenes is a key reaction for the synthesis of advanced heterobiaryls compounds. [9][10][11] In particular, the arylation of benzothiophene 12 is highly desirable because the (aryl)benzothiophene motif is widely present in active pharmaceutical ingredients (API) of marketed drugs [13][14][15] and in optoelectronic performance materials found in organic lightemitting diodes, organic field effect transistors and organic photovoltaic solar cells. [16][17][18][19] Moreover, the regioselective derivatization is of a paramount importance for structure-related activity.…”

Section: Introductionmentioning

confidence: 99%

Heterogenization of a Molecular Ni Catalyst within a Porous Macroligand for the Direct C–H Arylation of Heteroarenes

et al. 2021

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Direct C-H functionalization catalyzed by a robust and recyclable heterogeneous catalyst is highly desirable for sustainable fine chemical synthesis. Bipyridine units covalently incorporated into the backbone of a porous organic polymer were used as a porous macroligand for the heterogenization of a molecular nickel catalyst. A controlled nickel loading within the porous macroligand is achieved and the nickel coordination to the bpy sites is assessed at the molecular level using IR and solid-state NMR spectroscopy. The heterogenized Ni-bpy catalyst was successfully applied to the direct and fully selective C2 arylation of benzothiophenes, thiophene and selenophene, as well as for the arylation of free NH-indole. Recyclability of the catalyst was achieved by employing hydride activators to reach a cumulative turnover number of more than 300 after seven cycles of catalysis, which corresponds to a total productivity of 12 grams of 2-phenylbenzothiophene, chosen as model target biaryl, per gram of catalyst.

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Section: Introductionmentioning

confidence: 99%

Heterogenization of a Molecular Ni Catalyst within a Porous Macroligand for the Direct C–H Arylation of Heteroarenes

et al. 2021

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“…The pathway of atom transfer in absence of external reductant has been demonstrated in the C−H functionalization of heteroarenes. C−H bond functionalization has evolved as a useful tool for the construction of various target molecules and thereby having a wide range of applications in the area of drug discovery to material science [30–33] . The unique ability to functionalize an otherwise inert C−H bond has captivated the researcher for years.…”

Section: Reactions Involving Atom‐transfer Processmentioning

confidence: 99%

Visible‐Light‐Induced Manganese‐Catalyzed Reactions: Present Approach and Future Prospects

2021

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Visible‐light‐induced reactions have allowed researchers to attain unorthodox bond formation and elusive chemical processes under mild and inherently safe reaction conditions. However, these methods have relied heavily on Ru‐ and Ir‐based complexes or metal‐free chromophores. While the heavy transition metal complexes are limited by their high cost, toxicity, and adverse environmental effects. Metal‐free photo‐redox catalysts are restricted due to their poorer photo‐stability. In order to overcome these shortcomings, extensive research aimed towards utilizing 3d‐transition metals has come to the forefront. Manganese, in this regard, holds great promise as a versatile and economically sustainable 3d‐transition metal catalyst. Hence, it is not surprising that recent years have witnessed several advances in visible‐light‐mediated manganese catalysis in areas of organic, polymer, and materials chemistry. Manganese‐based heterogeneous systems have also been utilized to effect dimerization and oxygenation reactions showcasing the versatility of manganese. Moreover, manganese has enabled late‐stage functionalization of valuable medicinal compounds and natural products, which are all important from the viewpoint of medicinal and pharmaceutical chemistry. In the present review, comprehensive discussions on the advances, significance, approaches, and mechanistic aspects have been added for each photochemical reaction process. Further, the reaction scope, limitations, and future prospects of visible‐light‐induced manganese catalysis have also been reviewed.

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“…14 Such proximity-driven atomand step-efficient annulation strategies are synthetically valuable for the construction of natural and non-natural products, biologically important candidates, and molecules relevant to materials. [5][6] In spite of a broad synthetic versatility, these annulation methods forming CC, CN, and CO bonds are typically based on the use of precious 4d-and 5d-late transition metal-based catalysts (Rh, Ru, Pd, and Ir). 720 Meanwhile, the more abundant, relatively inexpensive and less toxic 3dTM cobalt complexes, such as Cp*Co(III)-type species, 2122 have emerged as attractive alternatives to the expensive Rh and Ir catalysts and have allowed to uncover mono-functionalization/cyclization processes involving unactivated arene CH bonds guided by a directing group (DG) ( Fig.…”

Section: Introductionmentioning

confidence: 99%

Harnessing sulfur and nitrogen in the cobalt(iii)-catalyzed unsymmetrical double annulation of thioamides: probing the origin of chemo- and regio-selectivity

Shankar

Saha

et al. 2021

Chem. Sci.

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Recent Advances in C–H Activation for the Synthesis of π-Extended Materials

Cited by 109 publications

References 277 publications

Heterogenization of a Molecular Ni Catalyst within a Porous Macroligand for the Direct C–H Arylation of Heteroarenes

Heterogenization of a Molecular Ni Catalyst within a Porous Macroligand for the Direct C–H Arylation of Heteroarenes

Visible‐Light‐Induced Manganese‐Catalyzed Reactions: Present Approach and Future Prospects

Harnessing sulfur and nitrogen in the cobalt(iii)-catalyzed unsymmetrical double annulation of thioamides: probing the origin of chemo- and regio-selectivity

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