Griffin, Jeremy D.; Vogt, David B.; Du Bois, J.; Sigman, Matthew S. published an article in 2021. The article was titled 《Mechanistic Guidance Leads to Enhanced Site-Selectivity in C-H Oxidation Reactions Catalyzed by Ruthenium bis(Bipyridine) Complexes》, and you may find the article in ACS Catalysis.Product Details of 3510-66-5 The information in the text is summarized as follows:
The development of an operationally simple C-H oxidation protocol using an acid-stable, bis(bipyridine)Ru catalyst is described. Electronic differences remote to the site of C-H functionalization are found to affect product selectivity. Site-selectivity is further influenced by the choice of reaction solvent, with highest levels of 2° methylene oxidation favored in aqueous dichloroacetic acid. A statistical model is detailed that correlates product selectivity outcomes with computational parameters describing the relative “”electron-richness”” of C-H bonds. The results came from multiple reactions, including the reaction of 2-Bromo-5-methylpyridine(cas: 3510-66-5Product Details of 3510-66-5)
2-Bromo-5-methylpyridine(cas: 3510-66-5) 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.Product Details of 3510-66-5