Catalytic selective oxidation of aromatic amines to azoxy derivatives with an ultralow loading of peroxoniobate salts

This work has demonstrated that tartaric acid-coordinated peroxoniobate salts can be employed as highly efficient catalysts in oxidative coupling of aniline to azoxybenzene under green and very mild conditions. These salts were synthesized and characterized thoroughly by FT-IR spectroscopy, elementa...

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Published in:Catalysis science & technology 2022-08, Vol.12 (17), p.536-5371
Main Authors: Ding, Bingjie, Xu, Beibei, Ding, Zuoji, Zhang, Tong, Wang, Yajun, Qiu, Hewen, He, Jingjing, An, Pengfei, Yao, Yefeng, Hou, Zhenshan
Format: Article
Language:English
Subjects:
Additives
Amines
Aniline
Catalysts
Chemical analysis
Condensates
Conversion
Coupling
Emission analysis
Hydrogen bonds
Hydrogen peroxide
Inductively coupled plasma
Industrial applications
Infrared spectroscopy
NMR
Nuclear magnetic resonance
Organic compounds
Oxidation
Selectivity
Spectrum analysis
Tartaric acid
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Summary:This work has demonstrated that tartaric acid-coordinated peroxoniobate salts can be employed as highly efficient catalysts in oxidative coupling of aniline to azoxybenzene under green and very mild conditions. These salts were synthesized and characterized thoroughly by FT-IR spectroscopy, elemental analysis, ICP-AES, TGA, ESI-MS, 93 Nb NMR, UV-vis spectroscopy, and EXAFS spectroscopy. Notably, full conversion of aniline and an excellent selectivity to azoxybenzene (more than 95%) were achieved with ppm-level peroxoniobate-based catalysts. Moreover, the reaction can proceed smoothly with stoichiometric amounts of H 2 O 2 without external heating and additives. The salts are also highly active in the conversion of various substituted aromatic amines with excellent selectivity towards azoxy products in simple operations. Mechanistic studies utilizing butylated hydroxytoluene (BHT) as a radical scavenger proved that the reaction proceeded through a catalytic mechanism rather than a radical approach. Besides, HRMS and UV-vis characterization provided clear evidence that Nb-(η 2 -O 2 ) species is an active intermediate involved in the selective oxidation of anilines. The hydrogen bond interaction between the -NH 2 group and Nb-(η 2 -O 2 ) species of the salts played an important role in producing N -phenylhydroxylamine as an intermediate, which was oxidized into nitrosobenzene. Then, the condensation between N -phenylhydroxylamine and nitrosobenzene afforded azoxybenzene quantitatively. This is the first work that shows that peroxoniobate salts demonstrate an exceptionally high TOF value (up to 4435 h −1 ) for the oxidation of arylamines even under ultralow loading conditions. Its exceptional catalytic performance and the green and mild reaction conditions make this catalytic system a promising candidate for oxidative coupling of aromatic amines in further industrial applications. Tartaric acid-coordinated peroxoniobate salts demonstrate an exceptionally high TOF value (up to 4435 h −1 ) even at an ultralow catalyst loading for the oxidation of aromatic amines to azoxy compounds under green and very mild conditions.
ISSN:2044-4753
2044-4761
DOI:10.1039/d2cy01137a