《Iron-catalyzed remote functionalization of inert C(sp3)-H bonds of alkenes via 1,n-hydrogen-atom-transfer by C-centered radical relay》 was published in Chemical Science in 2020. These research results belong to Bian, Kang-Jie; Li, Yan; Zhang, Kai-Fan; He, Yan; Wu, Tian-Rui; Wang, Cheng-Yu; Wang, Xi-Sheng. Recommanded Product: 2-(2-Hydroxyethyl)pyridine The article mentions the following:
Enabled by 1,n (n = 5, 6)-hydrogen atom transfer (HAT), a most prevalent moiety, alkene, as the precursor to an sp3 C-centered radical to promote selective cleavage of inert C(sp3)-H bonds for the generation of azidotrifluoromethylated mols. I [R1 = Me, n-Bu, Ph, etc.; R2 = H, Me, Et, n-octyl; R1R2 = (CH2)3, (CH2)4, (CH2)2O(CH2)2, etc.; X = C(CO2Et)2, C(CH2OBz)2, NTs] was used. Mild conditions, broad scope and excellent regioselective control (>20 : 1) were observed in the reactions. Deuterium labeling studies disclosed the kinetic characteristics of the transformations and verify a direct 1,n-HAT pathway. The key to this C-centered radical relay was that iron played a dual role as a radical initiator and terminator to incorporate the azide functionality through radical oxidation via azido-ligand-transfer. The methods and the later derivatization promised expeditious synthesis of CF3-containing organic azides, γ-lactam and triazoles that were widely used in designing new fluorescent tags and functional materials. In the experiment, the researchers used 2-(2-Hydroxyethyl)pyridine(cas: 103-74-2Recommanded Product: 2-(2-Hydroxyethyl)pyridine)
2-(2-Hydroxyethyl)pyridine(cas: 103-74-2) belongs to pyridine. Pyridine’s structure is isoelectronic with that of benzene, but its properties are quite different. Pyridine is completely miscible with water, whereas benzene is only slightly soluble. Like all hydrocarbons, benzene is neutral (in the acid–base sense), but because of its nitrogen atom, pyridine is a weak base.Recommanded Product: 2-(2-Hydroxyethyl)pyridine