1112-66-9 | Tetraallylsilane

Packsize	Purity	Availability	Price	Discounted Price
1g	95%	in stock	$32.00	$22.00
5g	95%	in stock	$90.00	$63.00
25g	95%	in stock	$362.00	$254.00

Description

• Catalog Number: AB79447
• Chemical Name: Tetraallylsilane
• CAS Number: 1112-66-9
• Molecular Formula: C12H20Si
• Molecular Weight: 192.3727
• MDL Number: MFCD00048161
• SMILES: C=CC[Si](CC=C)(CC=C)CC=C

Upstream Synthesis Route

Tetraallylsilane is a versatile compound commonly utilized in chemical synthesis as a valuable source of allyl groups. In organic chemistry, it serves as a valuable precursor for the installation of allyl functionalities onto various organic molecules. By undergoing suitable reactions, Tetraallylsilane can be transformed into a diverse range of allyl-substituted compounds, making it an essential building block in the construction of complex organic molecules.One important application of Tetraallylsilane is in the allylation of carbonyl compounds, such as ketones and aldehydes. Through allylation reactions catalyzed by Lewis acids or transition metal complexes, Tetraallylsilane can be used to introduce allyl groups to the carbonyl carbon, resulting in the formation of homoallylic alcohols or allyl-substituted carbonyl compounds. These products are valuable intermediates in the synthesis of natural products, pharmaceuticals, and fine chemicals.Furthermore, Tetraallylsilane can also participate in cross-coupling reactions to form carbon-carbon bonds with various organic electrophiles. For instance, in palladium-catalyzed allylation reactions, Tetraallylsilane can be coupled with organic halides or pseudohalides to afford functionalized allyl compounds. This strategy enables the construction of complex molecular structures with control over regio- and stereoselectivity, making Tetraallylsilane a powerful tool in organic synthesis.Overall, the application of Tetraallylsilane in chemical synthesis offers chemists a versatile and efficient method for introducing allyl groups into organic molecules, facilitating the synthesis of diverse and structurally intricate compounds.