期刊
CHEMICAL ENGINEERING JOURNAL
卷 417, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.cej.2021.129160
关键词
Nanoscale Zero-Valent Iron (nZVI); Tubular nitride carbon encapsulation; Electrocatalytic denitrification; N-2 selectivity; Electron; Activated hydrogen
资金
- National Natural Science Foundation of China (NSFC) [51978488, 41772243, 41673096]
- Shanghai Sailing Program [20YF1452200]
In this study, nZVI is reconstructed as an electrocatalyst nZVI@NC, which significantly improves nitrate removal efficiency and N-2 selectivity, while maintaining stable performance in the pH range of 5-11. Selective adsorption of nitrate on the NC layer and efficient cleavage of the N-O bond play key roles in the transformation of nitrate to benign N-2.
Denitrification of nitrate (NO3-) to dinitrogen (N-2) is of fundamental importance in water pollution control and environmental remediation. Conventional catalytic denitrification requires the use of expensive and often toxic metal such as Pd and Cu. Nitrate also can be rapidly reduced by environment-friendly nanoscale Zero-Valent Iron (nZVI), unfortunately the end product is mostly ammonia. Herein, nZVI is reconstructed with nitrogen-doping, dispersed and encapsulated within a tubular nitride carbon (nZVI@NC) as an electrocatalyst, regulating the multi-electron transfer reaction. The tubular iron structure is about 400-450 nm in length, has a diameter around 70-100 nm and wall thicknesses about 20-25 nm, surface area at 1445 m(2)/g. The nZVI@NC exhibits high nitrate removal efficiency (92%) and N-2 selectivity (97%), and maintains consistent performance in the pH range of 5-11. With nitrate selectively adsorbing on the highly porous and hydrophilic NC layer, the N-O bond is efficiently cleaved by gaining electrons from nZVI and activated hydrogen [H] to produce benign N-2. Meanwhile, the intermediate product NH4+ can be oxidized to N-2 by the HClO generated on the anode. This study points to promising prospects of modified nZVI for applications in denitrification and environmental remediation.
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