Defluorinative Diborasodiation of Benzotrifluorides with Bis(pinacolato)Diboron and Sodium

Borylative Desymmetrization of Multifunctional Haloarenes assisted by Sodium Dispersion

Multiply halogenated aromatic compounds were selectively borylated by a boron alkoxide in the presence of sodium dispersion when the reaction was carried out at a low temperature, while multi-functionalization took place at an elevated temperature. The reaction of 1,4-dichlorobenzene with sodium dispersion (200-1200 mol%) in the presence of isopropyloxyboron pinacolate (120-240 mol%) afforded (4-chlorophenyl)boron pinacolate in up to 84 % yield. Formation of diborylated product hardly accompanied under the reaction conditions at -78 °C for 1 h.

Reductive Ring Opening of Arylcyclopropanecarboxamides Accompanied by Borylation and Enolate Formation

Treatment of arylcyclopropanecarboxamides with a sodium dispersion in the presence of methoxypinacolborane as a reduction-resistant electrophile leads to reductive cleavage of the cyclopropane ring followed by instant trapping with the boron electrophile to yield the enolates of γ-aryl-γ-borylalkanamides. The enolates react further with a different electrophile to yield the corresponding α-substituted amides with anti selectivity.

Facile Multiple Alkylations of C60 Fullerene

The reduction of fullerene (C₆₀) with sodium dispersion in the presence of an excess amount of dipropyl sulfate was found to yield highly propylated fullerene, C₆₀(nC₃H₇)_n (max. n = 24), and C₆₀(nC₃H₇)₂₀ was predominantly generated as determined by mass spectroscopy.

Reductive Cleavage of Propargylic Ethers with Alkali Metal: Application to the Synthesis of Allenylboronates

Treatment of propargylic ethers with sodium dispersion in the presence of lithium iodide results in the generation of the corresponding carbanion species via cleavage of the propargylic C-O bond. The anionic species react with trimethoxyborane to yield the allenylboronates including highly substituted ones that are difficult to synthesize.