Harry J. Shrives scite author profile

Benzothiophenes are heterocyclic constituents of important molecules relevant to society, including those with the potential to meet modern medical challenges. The construction of molecules would be vastly more efficient if carbon–hydrogen bonds, found in all organic molecules, can be directly converted into carbon–carbon bonds. In the case of elaborating benzothiophenes, functionalization of carbon–hydrogen bonds at carbon-number 3 (C3) is markedly more demanding than at C2 due to issues of regioselectivity (C3 versus C2), and the requirement of high temperatures, precious metals and the installation of superfluous directing groups. Herein, we demonstrate that synthetically unexplored but readily accessible benzothiophene S-oxides serve as novel precursors for C3-functionalized benzothiophenes. Employing an interrupted Pummerer reaction to capture and then deliver phenol and silane coupling partners, we have discovered a directing group-free method that delivers C3-arylated and -alkylated benzothiophenes with complete regioselectivity, under metal-free and mild conditions.

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Synthesis of C2 Substituted Benzothiophenes via an Interrupted Pummerer/[3,3]‐Sigmatropic/1,2‐Migration Cascade of Benzothiophene S‐Oxides

Shrives

Fernández‐Salas

et al. 2018

Angew Chem Int Ed

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Functionalized benzothiophenes are important scaffolds found in molecules with wide ranging biological activity and in organic materials. We describe an efficient, metal-free synthesis of C2 arylated, allylated, and propargylated benzothiophenes. The reaction utilizes synthetically unexplored yet readily accessible benzothiophene S-oxides and phenols, allyl-, or propargyl silanes in a unique cascade sequence. An interrupted Pummerer reaction between benzothiophene S-oxides and the coupling partners yields sulfonium salts that lack aromaticity and therefore allow facile [3,3]-sigmatropic rearrangement. The subsequently generated benzothiophenium salts undergo a previously unexplored 1,2-migration to access C2 functionalized benzothiophenes.

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Sulfoxide-directed metal-free cross-couplings in the expedient synthesis of benzothiophene-based components of materials

et al. 2016

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Sulfoxide‐Directed Metal‐Free ortho‐Propargylation of Aromatics and Heteroaromatics

Eberhart

Shrives

Álvarez

et al. 2015

Chemistry A European J

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A sulfoxide-directed, metal-free ortho-propargylation of aromatics and heteroaromatics exploits intermolecular delivery of a propargyl nucleophile to sulfur followed by an intramolecular relay to carbon. The operationally simple cross-coupling procedure is general, regiospecific with regard to the propargyl nucleophile, and shows complete selectivity for products of ortho-propargylation over allenylation. The use of secondary propargyl silanes allows metal-free ortho-coupling to form carbon–carbon bonds between aromatic and heteroaromatic rings and secondary propargylic centres. The ‘safety-catch’ nature of the sulfoxide directing group is illustrated in a selective, iterative double cross-coupling process. The products of propargylation are versatile intermediates and they have been readily converted into substituted benzothiophenes.

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Synthesis of C2 Substituted Benzothiophenes via an Interrupted Pummerer/[3,3]‐Sigmatropic/1,2‐Migration Cascade of Benzothiophene S‐Oxides

Shrives

Fernández‐Salas

et al. 2018

Angewandte Chemie

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Functionalized benzothiophenes are important scaffolds found in molecules with wide ranging biological activity and in organic materials.W ed escribe an efficient, metal-free synthesis of C2 arylated, allylated, and propargylated benzothiophenes.T he reaction utilizes synthetically unexplored yet readily accessible benzothiophene S-oxides and phenols,a llyl-, or propargyl silanes in au nique cascade sequence.A ni nterrupted Pummerer reaction between benzothiophene S-oxides and the coupling partners yields sulfonium salts that lacka romaticity and therefore allowf acile [3,3]sigmatropic rearrangement. The subsequently generated benzothiophenium salts undergo ap reviously unexplored 1,2migration to access C2 functionalized benzothiophenes.

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Harry J. Shrives

Regioselective synthesis of C3 alkylated and arylated benzothiophenes

Synthesis of C2 Substituted Benzothiophenes via an Interrupted Pummerer/[3,3]‐Sigmatropic/1,2‐Migration Cascade of Benzothiophene S‐Oxides

Sulfoxide-directed metal-free cross-couplings in the expedient synthesis of benzothiophene-based components of materials

Sulfoxide‐Directed Metal‐Free ortho‐Propargylation of Aromatics and Heteroaromatics

Synthesis of C2 Substituted Benzothiophenes via an Interrupted Pummerer/[3,3]‐Sigmatropic/1,2‐Migration Cascade of Benzothiophene S‐Oxides

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