52144-69-1Relevant academic research and scientific papers
Visible-Light Controlled Divergent Catalysis Using a Bench-Stable Cobalt(I) Hydride Complex
Beltran, Frédéric,Bergamaschi, Enrico,Teskey, Christopher J.
supporting information, p. 5180 - 5184 (2020/04/22)
While the use of visible light in conjunction with transition metal catalysis offers powerful opportunities to switch between on/-off states of catalytic activity, the next frontier would be the ability to switch the actual function of the catalyst and resulting products. Here we report such an example of multi-dimensional catalysis. Featuring an easily prepared, bench-stable cobalt(I) hydride complex in conjunction with pinacolborane, we can switch the reaction outcome between two widely employed transformations, olefin migration and hydroboration, with visible light as the trigger.
Site-Selective C(sp3)–H Functionalization of Fluorinated Alkanes Driven by Polar Effects Using a Tungstate Photocatalyst
Fukuyama, Takahide,Nishikawa, Tomohiro,Ryu, Ilhyong
supporting information, p. 1424 - 1428 (2019/09/12)
The TBADT-catalyzed C(sp3)–H functionalization of perfluorophenyl- and perfluoroalkyl-substituted alkanes was studied to determine how the fluorous substituents affect site-selectivity. Alkylation of alkyl-substituted perfluorobenzene avoids α-C–H bonds, unlike their alkylbenzene counterparts, allowing site-selective functionalization of C–H bonds remote to the aromatic ring. Alkylation of alkanes having a perfluoroalkyl group also avoided α-C–H bonds. Radical polar effects in the SH2 transition states could explain this avoidance of α-C–H functionalization.
Carbon-carbon coupling of C(sp3)-F bonds using alumenium catalysis
Gu, Weixing,Haneline, Mason R.,Douvris, Christos,Ozerov, Oleg V.
experimental part, p. 11203 - 11212 (2009/12/05)
Dialkylalumenium cation equivalents coupled with the hexabromocarborane anion function as efficient and long-lived catalysts for alkylation of aliphatic C-F bonds (alkylative defluorination or AlkDF) by alkylaluminum compounds. Only C(sp3)-F bo
Hydroformylation of Fluoro Olefins, RfCH=CH2, Catalyzed by Group VIII Transition-Metal Catalysts. Crucial Factors for Extremely High Regioselectivity
Ojima, Iwao,Kato, Koji,Okabe, Masami,Fuchikami, Takamasa
, p. 7714 - 7720 (2007/10/02)
Hydroformylations of fluoro olefins, trifluoroprop-1-ene (TFP), pentafluorobut-1-ene (PFB), heptafluoropent-1-ene (HPFP), heptadecafluorodec-1-ene (HPDFD), vinyl fluoride (VF), pentafluorostyrene (PFS), and allylpentafluorobenzene (4a), promoted by transition-metal catalysts were studied.Remarkable dependency of the regioselectivity of the reaction on the catalyst metal species (Co, Pt, Ru, and Rh) was found in the reactions of TFP and PFS; e.g., n-aldehyde was obtained with >93percent selectivity by a cobalt catalyst whereas iso-aldehyde was obtained with >96percent selectivity by a rhodium catalyst for the reaction of TFP.On the contrary, the reaction of VF gave 2-fluoropropanal (2-FPA) exclusively, regardless of the metal catalyst species.The effects of temperature and carbon monoxide pressure on the regioselectivity were investigated.Possible mechanisms for the uniquely regioselective hydroformylations are discussed on the basis of the results obtained, and a mechanism that involves an initial formation of isoalkyl-metal species followed by isomerization to n-alkyl-metal species and/or followed by carbon monoxide insertion to form isoacyl-metal intermediate was proposed to be the one operating in these reactions.
