氮气
转化(遗传学)
硝酸盐
还原(数学)
化学
选择性还原
环境化学
有机化学
数学
生物化学
几何学
基因
催化作用
作者
Yan Li,Wenjie Liu,Hua Zhu,Jiaxin Cui,Tao Xu,Ying Zhao,Xuhui Mao
标识
DOI:10.1021/acs.est.4c10943
摘要
Improving the reduction efficiency and N2 selectivity is important for nitrate decontamination. A novel ternary ball-milled Al-Cu-AC material is reported to achieve a highly selective reduction of nitrate to N2. The reduction process, driven by the continuous dissolution of zero-valent aluminum (ZVAl), demonstrated a stepwise reduction scheme. The interesting shift in the electron-donating pathways was ascribed to the spontaneous change in the microenvironmental pH from neutral to alkaline. The Al-Cu-AC (1:1:5 mass ratio) material completely removed 30 mg/L of NO3--N over a wide pH range (5-9), achieving over 83% TN removal and N2-selectivity, without detectable copper leaching. The atomic hydrogen (H*)-mediated reduction occurring on the Cu component was proven to be crucial for the fast transformation from NO3- to NO2-, while the non-H* reduction process was dominated by the electrochemical reduction of NO2- to N2 on the AC cathode of Al || AC microgalvanic cells formed in the material. The primary reduction route from NO3- to N2 was identified as the *NOH pathway, and the superiority of the Al-Cu-AC material toward nitrate reduction was verified with actual wastewater. This study revealed how microenvironmental pH influenced the electron-donating pathways of ZVAl and provides a new approach to maximize the performance of zero-valent metals.
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