Mn₂(CO)₁₀ and UV light: a promising combination for regioselective alkene hydrosilylation at low temperature

Abstract: The low temperature regioselective hydrosilylation of various alkenes with (1,1,1,3,5,5,5-heptamethyltrisiloxane) MDHM is described using Mn2(CO)10 under UV irradiation with Mn loadings as low as 1 mol%, in the absence of additives and with excellent selectivity and yields.

“…Continuing with the use of commercially available manganese precursors, a communication was recently disclosed by Thieuleux’s group about the hydrosilylation of terminal alkenes with Mn-12 (Figure ) under UV irradiation . Excellent yields toward the linear products were obtained at room temperature and in the absence of additives with the industrially relevant MD H M (1,1,1,3,5,5,5-heptamethyltrisiloxane).…”

“…Continuing with the use of commercially available manganese precursors, a communication was recently disclosed by Thieuleux’s group about the hydrosilylation of terminal alkenes with Mn-12 ( Figure 4 ) under UV irradiation. 48 Excellent yields toward the linear products were obtained at room temperature and in the absence of additives with the industrially relevant MD H M (1,1,1,3,5,5,5-heptamethyltrisiloxane). The authors reported that the process was inhibited in the presence of a radical scavenger (TEMPO) but not with a Hg drop test, which is indicative of a radical pathway and a homogeneous system.…”

Homogeneous Manganese-Catalyzed Hydrofunctionalizations of Alkenes and Alkynes: Catalytic and Mechanistic Tendencies

“…Continuing with the use of commercially available manganese precursors, a communication was recently disclosed by Thieuleux’s group about the hydrosilylation of terminal alkenes with Mn-12 (Figure ) under UV irradiation . Excellent yields toward the linear products were obtained at room temperature and in the absence of additives with the industrially relevant MD H M (1,1,1,3,5,5,5-heptamethyltrisiloxane).…”

“…Continuing with the use of commercially available manganese precursors, a communication was recently disclosed by Thieuleux’s group about the hydrosilylation of terminal alkenes with Mn-12 ( Figure 4 ) under UV irradiation. 48 Excellent yields toward the linear products were obtained at room temperature and in the absence of additives with the industrially relevant MD H M (1,1,1,3,5,5,5-heptamethyltrisiloxane). The authors reported that the process was inhibited in the presence of a radical scavenger (TEMPO) but not with a Hg drop test, which is indicative of a radical pathway and a homogeneous system.…”

Homogeneous Manganese-Catalyzed Hydrofunctionalizations of Alkenes and Alkynes: Catalytic and Mechanistic Tendencies

“…a 1 : 2 molar ratio of alkene : silane, using two different Mn(0) and Mn( i ) complexes, namely Mn 2 (CO) 10 or MnBr(CO) 5 . 36 The reaction was set under argon in a 4 mL vial with concentrations of 0.825 M for n -octene (74 μL, 0.47 mmol) and 1.650 M for MD H M (256 μL, 0.94 mmol). Alkenes and MD H M were purified and stored under an inert atmosphere in a glovebox prior to use (see the ESI†).…”

“…Under these experimental conditions, the anti-Markovnikov hydrosilylation products were selectively obtained in excellent yields. 36 Unfortunately, this catalytic system was found to suffer from rapid deactivation if exposed to air and required the use of quartz glassware for optimal activation under UV irradiation; thermal activation of this catalyst was unsuccessful. In order to overcome these constraints, we explored the reactivity of Mn(I) complexes as alternatives to Mn (0) complexes as Wang and co-workers had shown that MnBr (CO) 5 was able to perform anti-Markovnikov hydrosilylation of alkenes without ligands or additives.…”

MnBr(CO)₅: a commercially available highly active catalyst for olefin hydrosilylation under ambient air and green conditions

“…13 In this context, the development of photoinduced manganese-catalyzed atom-transfer reactions has become a rapidly growing research area in organic synthesis because of the Earth abundance, inexpensiveness, and low toxicity of manganese. 12 g ,13 a,b ,14 In this regard, many research groups including ours have recently demonstrated that diverse radical species, such as C-, 15 Si-, 16 Ge-, 16 c and N-radicals, 17 can be easily produced from the corresponding radical precursors ( e.g. , alkyl halides, silanes, germanes, and N-halogenated sulfonamides) by an atom transfer reaction facilitated by manganese catalysis, thus enabling efficient construction of C–C and C-heteroatom bonds.…”

Visible light-initiated manganese-catalyzed hydrosulfonylation of alkenes