The author of 《Phosphine-NHC Manganese Hydrogenation Catalyst Exhibiting a Non-Classical Metal-Ligand Cooperative H2 Activation Mode》 were Buhaibeh, Ruqaya; Filippov, Oleg A.; Bruneau-Voisine, Antoine; Willot, Jeremy; Duhayon, Carine; Valyaev, Dmitry A.; Lugan, Noel; Canac, Yves; Sortais, Jean-Baptiste. And the article was published in Angewandte Chemie, International Edition in 2019. Name: 4-Acetylpyridine The author mentioned the following in the article:
Deprotonation of the MnI NHC-phosphine complex fac-[MnBr(CO)3(κ2P,C-Ph2PCH2NHC)] (2, II) under a H2 atmosphere readily gives the hydride fac-[MnH(CO)3(κ2P,C-Ph2PCH2NHC)] (3, III) via the intermediacy of the highly reactive 18-e NHC-phosphinomethanide complex fac-[Mn(CO)3(κ3P,C,C-Ph2PCHNHC)] (6a, VI). DFT calculations revealed that the preferred reaction mechanism involves the unsaturated 16-e mangana-substituted phosphonium ylide complex fac-[Mn(CO)3(κ2P,C-Ph2P=CHNHC)] (6 b) as key intermediate able to activate H2 via a non-classical mode of metal-ligand cooperation implying a formal λ5-P-λ3-P phosphorus valence change. Complex 2 is shown to be one of the most efficient pre-catalysts for ketone hydrogenation in the MnI series reported to date (TON up to 6200). In addition to this study using 4-Acetylpyridine, there are many other studies that have used 4-Acetylpyridine(cas: 1122-54-9Name: 4-Acetylpyridine) was used in this study.
4-Acetylpyridine(cas: 1122-54-9) belongs to pyridine. Pyridine is a relatively complex molecule and exhibits a number of different bands in IR spectra. Among others, the bands characterizing the ν8a and ν19b modes have been found to be sensitive to the coordination or protonation of the molecule. Note that the band that is diagnostic for the PyH+ ion at about 1545 cm− 1 (ν19b mode) does not overlap with any of the other bands.Name: 4-Acetylpyridine