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Nonredox trivalent nickel catalyzing nucleophilic electrooxidation of organics

Yuandong Yan, Ruyi Wang, Qian Zheng, Jiaying Zhong, Weichang Hao, Shicheng Yan, Zhigang Zou

2023Nature Communications137 citationsDOIOpen Access PDF

Abstract

Abstract A thorough comprehension of the mechanism behind organic electrooxidation is crucial for the development of efficient energy conversion technology. Here, we find that trivalent nickel is capable of oxidizing organics through a nucleophilic attack and electron transfer via a nonredox process. This nonredox trivalent nickel exhibits exceptional kinetic efficiency in oxidizing organics that possess the highest occupied molecular orbital energy levels ranging from −7.4 to −6 eV (vs. Vacuum level) and the dual local softness values of nucleophilic atoms in nucleophilic functional groups, such as hydroxyls (methanol, ethanol, benzyl alcohol), carbonyls (formamide, urea, formaldehyde, glucose, and N-acetyl glucosamine), and aminos (benzylamine), ranging from −0.65 to −0.15. The rapid electrooxidation kinetics can be attributed to the isoenergetic channels created by the nucleophilic attack and the nonredox electron transfer via the unoccupied e g orbitals of trivalent nickel (t 2g 6 e g 1 ). Our findings are valuable in identifying kinetically fast organic electrooxidation on nonredox catalysts for efficient energy conversions.

Topics & Concepts

NucleophileChemistryOxidizing agentNickelPhotochemistryMethanolBenzylamineCatalysisNucleophilic additionNucleophilic substitutionMedicinal chemistryOrganic chemistryElectrocatalysts for Energy ConversionAdvanced battery technologies researchElectrochemical Analysis and Applications
Nonredox trivalent nickel catalyzing nucleophilic electrooxidation of organics | Litcius