![A new strategy to efficiently cleave and form C–H bonds using proton-coupled electron transfer | Science Advances A new strategy to efficiently cleave and form C–H bonds using proton-coupled electron transfer | Science Advances](https://www.science.org/cms/10.1126/sciadv.aat5776/asset/9fdaf586-4b83-4d4d-a3f5-8f929f09a0fc/assets/graphic/aat5776-f1.jpeg)
A new strategy to efficiently cleave and form C–H bonds using proton-coupled electron transfer | Science Advances
![The electron configuration for the carbon atom is: (a) [He] 2s^22p^2 (b) [He] 2s^4 (c) [Ne] 2s^22p^2 (d) 1s^22p^4 (e) None of these | Homework.Study.com The electron configuration for the carbon atom is: (a) [He] 2s^22p^2 (b) [He] 2s^4 (c) [Ne] 2s^22p^2 (d) 1s^22p^4 (e) None of these | Homework.Study.com](https://homework.study.com/cimages/multimages/16/aufbau7621802225308557580.png)
The electron configuration for the carbon atom is: (a) [He] 2s^22p^2 (b) [He] 2s^4 (c) [Ne] 2s^22p^2 (d) 1s^22p^4 (e) None of these | Homework.Study.com
![Single-electron transfer oxidation-induced C–H bond functionalization via photo-/electrochemistry: Trends in Chemistry Single-electron transfer oxidation-induced C–H bond functionalization via photo-/electrochemistry: Trends in Chemistry](https://www.cell.com/cms/attachment/9cb1e334-3ade-4850-ac31-b174f9dd275f/gr1_lrg.jpg)
Single-electron transfer oxidation-induced C–H bond functionalization via photo-/electrochemistry: Trends in Chemistry
![Redox chemistry of vitamin C. As depicted, ascorbate can undergo two... | Download Scientific Diagram Redox chemistry of vitamin C. As depicted, ascorbate can undergo two... | Download Scientific Diagram](https://www.researchgate.net/publication/354346282/figure/fig1/AS:1064182719991809@1630732340150/Redox-chemistry-of-vitamin-C-As-depicted-ascorbate-can-undergo-two-sequential.png)