TY - JOUR
AU1 - Murtaza, Ayesha
AU2 - Ulhaq, Zia
AU3 - Shirinfar, Bahareh
AU4 - Rani, Sadia
AU5 - Aslam, Samina
AU6 - Martins, Guilherme M.
AU7 - Ahmed, Nisar
AB - C−H bond functionalization generates molecular complexity in single‐step transformation. However, the activation of C−H bonds requires expensive metals or stoichiometric amounts of oxidizing/reducing species. In many cases, they often require pre‐functionalization of starting molecules. Such pre‐activating measures cause waste generation and their separation from the final product is also troublesome. In such a scenario, reactions activating elements generating from renewable energy resources such as electricity and light would be more efficient, green, and cost‐effective. Further, incorporation of growing flow technology in chemical transformation processes will accelerate the safer accesses of valuable products. Arenes & heteroarenes are ubiquitous in pharmaceuticals, natural products, medicinal compounds, and other biologically important molecules. Herein, we discussed enabling tools and technologies used for the recent C−H bonds functionalization of arenes and heteroarenes.
TI - Arenes and Heteroarenes C−H Functionalization Under Enabling Conditions: Electrochemistry, Photoelectrochemistry & Flow Technology
JF - The Chemical Record
DO - 10.1002/tcr.202300119
DA - 2023-10-01
UR - https://www.deepdyve.com/lp/wiley/arenes-and-heteroarenes-c-h-functionalization-under-enabling-7IFFwz0z05
VL - 23
IS - 10
DP - DeepDyve
ER -