Comprehensive studies on platinum-catalyzed hydrosilylation of a wide range of terminal and internal alkynes with spherosilicate (HSiMe O) Si O (1 a) were performed. The influence of the reaction parameters and the types of reagents and catalysts on the efficiency of the process, which enabled the creation of a versatile and selective method to synthesize olefin octafunctionalized octaspherosilicates, was studied in detail. Within this work, twenty novel 1,2-(E)-disubstituted and 1,1,2-(E)-trisubstituted alkenyl-octaspherosilicates (3 a-m, 6 n-t) were selectively obtained with high yields, and fully characterized ( H, C, Si NMR, FTIR, MALDI TOF or TOF MS ES analysis). Moreover, the molecular structure of the compound (Me Si(H)C=C(H)SiMe O) Si O (3 a) was determined by X-ray crystallography for the first time. The developed procedures are the first that allow selective hydrosilylation of terminal silyl, germyl, aryl, and alkyl alkynes with 1 a, as well as the direct introduction of sixteen functional groups into the 1 a structure by the hydrosilylation of internal alkynes. This method constituted a powerful tool for the synthesis of hyperbranched compounds with a Si-O based cubic core. The resulting products, owing to their unique structure and physicochemical properties, are considered novel, multifunctional, hybrid, and nanometric building blocks, intended for the synthesis of star-shaped molecules or macromolecules, as well as nanofillers and polymer modifiers. In the presented syntheses, commercially available reagents and catalysts were used, so these methods can be easily repeated, rapidly scaled up, and widely applied.
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Article Synopsis
- The study explores sustainable methods for hydrosilylation of alkenes using 3d transition metals instead of traditional noble metals, focusing on how ligands and metal centers impact reaction mechanisms and selectivity.
- It highlights that the electronic and steric properties of ligands, such as xantphos and PDI, influence regioselectivity, with xantphos promoting higher linear selectivity for cobalt catalysts.
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