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  • Silylation of C-H bonds in aromatic heterocycles by an Earth-abundant metal catalyst.

Silylation of C-H bonds in aromatic heterocycles by an Earth-abundant metal catalyst.

Nature (2015-02-06)
Anton A Toutov, Wen-Bo Liu, Kerry N Betz, Alexey Fedorov, Brian M Stoltz, Robert H Grubbs
ABSTRACT

Heteroaromatic compounds containing carbon-silicon (C-Si) bonds are of great interest in the fields of organic electronics and photonics, drug discovery, nuclear medicine and complex molecule synthesis, because these compounds have very useful physicochemical properties. Many of the methods now used to construct heteroaromatic C-Si bonds involve stoichiometric reactions between heteroaryl organometallic species and silicon electrophiles or direct, transition-metal-catalysed intermolecular carbon-hydrogen (C-H) silylation using rhodium or iridium complexes in the presence of excess hydrogen acceptors. Both approaches are useful, but their limitations include functional group incompatibility, narrow scope of application, high cost and low availability of the catalysts, and unproven scalability. For this reason, a new and general catalytic approach to heteroaromatic C-Si bond construction that avoids such limitations is highly desirable. Here we report an example of cross-dehydrogenative heteroaromatic C-H functionalization catalysed by an Earth-abundant alkali metal species. We found that readily available and inexpensive potassium tert-butoxide catalyses the direct silylation of aromatic heterocycles with hydrosilanes, furnishing heteroarylsilanes in a single step. The silylation proceeds under mild conditions, in the absence of hydrogen acceptors, ligands or additives, and is scalable to greater than 100 grams under optionally solvent-free conditions. Substrate classes that are difficult to activate with precious metal catalysts are silylated in good yield and with excellent regioselectivity. The derived heteroarylsilane products readily engage in versatile transformations enabling new synthetic strategies for heteroaromatic elaboration, and are useful in their own right in pharmaceutical and materials science applications.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Hydrogen, ≥99.99%
Sigma-Aldrich
Indole, ≥99%, FG
Sigma-Aldrich
Indole, ≥99%
Sigma-Aldrich
Activated Charcoal Norit®, Norit® SX ultra, from peat, corresponds U.S. Food chemicals codex (3rd Ed.), steam activated and acid washed, highly purified, powder
Sigma-Aldrich
Activated Charcoal Norit®, Norit® RB3, for gas purification, steam activated, rod
Sigma-Aldrich
Activated Charcoal Norit®, Norit® GAC 1240W, from coal, for potable water processing, steam activated, granular
Sigma-Aldrich
Activated Charcoal Norit®, Norit® CA1, wood, chemically activated, powder
Sigma-Aldrich
Activated Charcoal Norit®, Norit® SX2, powder, from peat, multi-purpose activated charcoal, steam activated and acid washed
Sigma-Aldrich
Potassium tert-butylate, for synthesis
Sigma-Aldrich
Activated Charcoal Norit®, Norit® PK 1-3, from peat, steam activated, granular
Sigma-Aldrich
Activated charcoal, powder, -100 particle size (mesh), decolorizing
Sigma-Aldrich
Activated charcoal, untreated, granular, 8-20 mesh
Sigma-Aldrich
Activated charcoal, acid-washed with hydrochloric acid
Sigma-Aldrich
Activated charcoal, untreated, granular, ≤5 mm
Sigma-Aldrich
Activated charcoal, acid-washed with phosphoric and sulfuric acids
Sigma-Aldrich
Activated charcoal, untreated, granular, 20-60 mesh
Sigma-Aldrich
Activated Charcoal, meets USP testing specifications
Carbon, tube, graphite, 150mm, outside diameter 3.18mm, inside diameter 1.18mm, wall thickness 1.0mm, 99.95%
Carbon, tube, graphite, 150mm, outside diameter 6.35mm, inside diameter 3.15mm, wall thickness 1.6mm, 99.95%
Carbon, tube, graphite, 50mm, outside diameter 12.7mm, inside diameter 9.5mm, wall thickness 1.6mm, 99.95%
Carbon, foil, 150x150mm, thickness 0.5mm, flexible graphite, 99.8%
Carbon, foil, 150x150mm, thickness 0.5mm, rigid graphite, fine grain size, 99.95%
Silicon, disks, 15.9mm, thickness 0.38mm, single crystal, n-type, 100%
Carbon, foil, 150x150mm, thickness 1.0mm, rigid graphite, fine grain size, 99.95%
Silicon, rod, 100mm, diameter 12.7mm, single crystal - random orientation, 100%
Silicon, disks, 13mm, thickness 0.38mm, single crystal, 100%
Silicon, rod, 100mm, diameter 2.0mm, crystalline, 100%
Carbon, foil, 100x100mm, thickness 5.0mm, rigid graphite, medium grain size, 99.5%
Silicon, disks, 15.9mm, thickness 0.38mm, single crystal, n-type, 100%
Carbon, foil, 150x150mm, thickness 5.0mm, rigid graphite, medium grain size, 99.5%