期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
Sulfite activation by ZnO-encapsulated hydrogels for degradation of trimethylphenol
1
作者 Jiyuan Nai Yaning Han +5 位作者 Shoudu Zhang Youxun Li Xiaowei Chen Ren’an Wu Li Wang Lei Jiang 《Nano Research》 SCIE EI CSCD 2023年第10期12345-12356,共12页
Trimethylphenol is an organic toxic byproduct of industrial process,which is difficult to be eliminated through conventional degradation without harsh conditions.In this work,a sulfite-based oxidation process activate... Trimethylphenol is an organic toxic byproduct of industrial process,which is difficult to be eliminated through conventional degradation without harsh conditions.In this work,a sulfite-based oxidation process activated by ZnO-embedded hydrogel was studied for the degradation of 2,4,6-trimethylphenols in the ambient conditions.The ZnO/Na_(2)SO_(3)oxidative system can effectively degrade trimethylphenol via the generation of radicals such as SO_(4)^(-)·,OH·,and SO_(3)^(−)·.The presence of hydrogel matrix facilitates the distribution and recyclability of ZnO catalysts while maintaining high degradation kinetics and little leaching of metal ions.Results suggest the promising potential of ZnO-hydrogel in wastewater treatment with good performance in terms of pH sensitivity,anion interference,recyclability,etc.The combination of ZnO catalysts,hydrogel,and sulfite-based advanced oxidation process may provide essential support for the current treatment of alkylated phenols with strong potential in the commercial scale-ups. 展开更多
关键词 ZnO nanoparticles hydrogel 2 4 6-trimethylphenol NANOCATALYST DEGRADATION SULFITE
原文传递
LASER-INDUCED FLUORESCENCE AND CHEMILUMINESCENCE STUDIES OF THE BEAM-GAS REACTIONS CCI4+Ba(1S), Ba(3D)
2
作者 何国钟 曾宪康 +3 位作者 任吉伦 佟丽娜 王珏 楼南泉 《Chinese Science Bulletin》 SCIE EI CAS 1984年第3期424-425,共2页
The internal state distribution of the product molecule produced in Ba(1S)+CCl4 and Ba(1S, 3D)+CCl4 reaction has been investigated under the single collision condition, using the techniques of laser-induced fluore... The internal state distribution of the product molecule produced in Ba(1S)+CCl4 and Ba(1S, 3D)+CCl4 reaction has been investigated under the single collision condition, using the techniques of laser-induced fluorescence and chemiluminescence. The BaCl (C2∏1/2-X2∑+) 展开更多
关键词 collision LASER BEAM TENSITY grounds SUPPOSE EXTENDING
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部