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Electrosynthesis of the Nylon-6 Precursor from Nitrate and Cyclohexanone over a Rutile TiO <sub>2</sub> Catalyst

Lan Luo, Lingxiu Li, Liang Xu, Yifan Yan, Shanshan Zhang, Hua Zhou, Xijun Li, Mingfei Shao, Xue Duan

2024CCS Chemistry39 citationsDOIOpen Access PDF

Abstract

Open AccessCCS ChemistryRESEARCH ARTICLES4 Apr 2024Electrosynthesis of the nylon-6 precursor from nitrate and cyclohexanone over a rutile TiO2 catalyst Lan Luo, Lingxiu Li, Liang Xu, Yifan Yan, Shanshan Zhang, Hua Zhou, Zhenhua Li, Mingfei Shao and Xue Duan Lan Luo , Lingxiu Li , Liang Xu , Yifan Yan , Shanshan Zhang , Hua Zhou , Zhenhua Li , Mingfei Shao and Xue Duan https://doi.org/10.31635/ccschem.024.202403988 SectionsSupplemental MaterialAboutPDF ToolsAdd to favoritesDownload CitationsTrack Citations ShareFacebookTwitterLinked InEmail Electrocatalytic reduction of nitrate (NO3−) to valuable organonitrogen compounds beyond ammonia is a promising strategy for mitigating the human-caused unbalance of the global nitrogen-cycle. Herein, we present an electrochemical strategy for synthesizing cyclohexanone oxime (CHO), an important feedstock in nylon-6 production, through the hydrogenative coupling of NO3− and cyclohexanone (CYC) using a rutile titanium dioxide (R-TiO2) catalyst under ambient conditions. The CHO productivity achieved 127.3 µmol cm−2 h−1 with a high Faradaic efficiency (FE) of 68.2% at a current density of 30 mA cm−2. Moreover, the yield of CHO reached 98.2%. We demonstrate that the electrosynthesis of CHO operates through a tandem reaction mechanism involving the in-situ generation of hydroxylamine (NH2OH) from NO3− reduction, followed by a spontaneous nucleophilic addition–elimination reaction between NH2OH and cyclohexanone. Additionally, we reveal that R-TiO2 exhibits a superior scaling relation with a high NH2OH generation rate and excellent cyclohexanone adsorption ability, which promotes CHO production. This electrochemical strategy is also effective for the synthesis of different oximes. Finally, we designed a coupling reaction system to realize the simultaneous production of CHO and CYC by combining cathodic NO3− reduction and anodic cyclohexane oxidation, demonstrating a greener and more economical approach. Download figure Download PowerPoint Previous articleNext article FiguresReferencesRelatedDetails Issue AssignmentNot Yet AssignedSupporting Information Copyright & Permissions© 2024 Chinese Chemical Society Downloaded 0 times PDF downloadLoading ...

Topics & Concepts

ElectrosynthesisCyclohexanoneRutileCatalysisNitrateChemistryInorganic chemistryChemical engineeringMaterials scienceOrganic chemistryPhysical chemistryElectrochemistryEngineeringElectrodeAmmonia Synthesis and Nitrogen ReductionElectrocatalysts for Energy ConversionCatalytic Processes in Materials Science
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