Insights into the generation of high-valent copper-oxo species in ligand-modulated catalytic system for oxidizing organic pollutants

[Display omitted] •Controllable activation of hydrogen peroxide is realized by copper(II) complexes.•The catalytic activity of IDA/Cu(II) is enhanced by the introduction of pyridine derivatives.•The reactive channel of peroxide OO bond activation could be controlled from homolytic cleavage to hetero...

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Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Switzerland : 1996), 2016-11, Vol.304, p.1000-1008
Main Authors: Wang, Yanyan, Xia, Hanchun, Sun, Ke, Wu, Sheng, Lu, Wangyang, Xu, Jianfeng, Li, Nan, Pei, Kemei, Zhu, Zhexin, Chen, Wenxing
Format: Article
Language:English
Subjects:
Controllable hydrogen peroxide activation
Copper(II) complex
High-valent copper-oxo species
Iminodiacetic acid
Pyridine derivative
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Summary:[Display omitted] •Controllable activation of hydrogen peroxide is realized by copper(II) complexes.•The catalytic activity of IDA/Cu(II) is enhanced by the introduction of pyridine derivatives.•The reactive channel of peroxide OO bond activation could be controlled from homolytic cleavage to heterolytic cleavage.•High-valent copper-oxo species could be detected by in situ high-definition electrospray ionization mass spectrometry.•OCuIII(IDA)(4-ampy)2 species is proposed as the possible reactive species. The development of coordination complexes to activate hydrogen peroxide (H2O2) selectively is a goal that has long been pursued. As highly reactive intermediates, the high-valent metal-oxo species play important roles in many biological and industrial catalytic oxidation processes. To improve the catalytic efficiency of metal complexes, the peroxide OO bond should be cleaved heterolytically to decrease the decomposition of H2O2 into O2 and H2O. In this work, we provide a simple method to obtain coordination complex catalysts based on iminodiacetic acid (IDA), copper(II) ions and pyridine derivatives. Catalytic activity tests showed that the introduction of 4-aminopyridine ligands resulted in an enhanced catalytic activity of the IDA/Cu(II)/4-ampy complex. A series of designed experiments proved that high-valent copper-oxo species ([OCuIII(IDA)(4-ampy)2] species) were formed in the IDA/Cu(II)/4-ampy complex system in the presence of hydrogen peroxide. The [OCuIII(IDA)(4-ampy)2] species were detected by in-situ high-definition electrospray ionization mass spectrometry, and has been considered as the possible active species during H2O2 activation catalyzed by the IDA/Cu(II)/4-ampy complex (with the molar ratio of IDA/Cu(II)/4-ampy being greater than 1:1:2). A mechanism has been proposed based on the results of electron paramagnetic resonance and density functional theory calculations.
ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2016.07.007