Continuous rapid dechlorination of p-chlorophenol by Fe-Pd nanoparticles promoted by procyanidin
Nanoscale zero-valent iron has been widely applied in environmental remediation and toxic waste treatment, especially for the degradation of persistent organic pollutants (POPs). However, the dechlorination activity of Fe nanoparticles (Fe NPs) can be suppressed by the precipitation of iron oxides...
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sg-ntu-dr.10356-1446582020-11-17T06:29:09Z Continuous rapid dechlorination of p-chlorophenol by Fe-Pd nanoparticles promoted by procyanidin Liu, Mingyue Huang, Renliang Li, Chuanxi Che, Mingda Su, Rongxin Li, Shuzhou Yu, Jing Qi, Wei He, Zhimin School of Materials Science and Engineering Engineering::Materials Zero-valent Iron Dechlorination Nanoscale zero-valent iron has been widely applied in environmental remediation and toxic waste treatment, especially for the degradation of persistent organic pollutants (POPs). However, the dechlorination activity of Fe nanoparticles (Fe NPs) can be suppressed by the precipitation of iron oxides generated from the corrosion of Fe-Pd NPs under alkaline conditions, leading to a decreased dechlorination efficiency. Faced with this challenge, we report a highly effective dechlorination system that functions over a broad pH range and especially well under alkaline conditions in this work. Procyanidin (PROC), a natural polyphenol, was utilized as a stabilizer to manipulate the size distribution of Fe-Pd NPs and, more importantly, as a scavenger of Fe ions to prevent iron oxide precipitation. Experiments and theoretical calculations reveal that the generated Fe ions was mainly present in the form of bis- and tris-PROC-Fe complexes in the reaction solution. Compared with pristine Fe-Pd NPs, the PROC-modified Fe-Pd NPs had a dechlorination efficiency that was increased 20-fold (pH 9.0). Notably, a normalized rate constant was enhanced by more than 2 orders of magnitude compared to the previously reported dechlorination systems. The PROC-modified Fe-Pd NPs showed excellent dechlorination efficiency over a wide pH range (2.3–13.0). Nanyang Technological University This work was supported by the National Natural Science Foundation of China (21621004, 51473115, 21776212), Tianjin Municipal Science and Technology Bureau, China (16JCZDJC37900, 18YFHBZC00010, 18YFZCSF00590), and the Ministry of Education (grant No. NCET-11-0372). JY thanks to a start-up grant of NTU, M4082049.070. 2020-11-17T06:29:09Z 2020-11-17T06:29:09Z 2019 Journal Article Liu, M., Huang, R., Li, C., Che, M., Su, R., Li, S., . . . He, Z. (2019). Continuous rapid dechlorination of p-chlorophenol by Fe-Pd nanoparticles promoted by procyanidin. Chemical Engineering Science, 201, 121-131. doi:10.1016/j.ces.2019.02.024 0009-2509 https://hdl.handle.net/10356/144658 10.1016/j.ces.2019.02.024 201 121 131 en M4082049.070 Chemical Engineering Science © 2019 Elsevier Ltd. All rights reserved. |
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Engineering::Materials Zero-valent Iron Dechlorination |
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Engineering::Materials Zero-valent Iron Dechlorination Liu, Mingyue Huang, Renliang Li, Chuanxi Che, Mingda Su, Rongxin Li, Shuzhou Yu, Jing Qi, Wei He, Zhimin Continuous rapid dechlorination of p-chlorophenol by Fe-Pd nanoparticles promoted by procyanidin |
| description |
Nanoscale zero-valent iron has been widely applied in environmental remediation and toxic waste treatment, especially for the degradation of persistent organic pollutants (POPs). However, the dechlorination
activity of Fe nanoparticles (Fe NPs) can be suppressed by the precipitation of iron oxides generated from
the corrosion of Fe-Pd NPs under alkaline conditions, leading to a decreased dechlorination efficiency.
Faced with this challenge, we report a highly effective dechlorination system that functions over a broad
pH range and especially well under alkaline conditions in this work. Procyanidin (PROC), a natural
polyphenol, was utilized as a stabilizer to manipulate the size distribution of Fe-Pd NPs and, more importantly, as a scavenger of Fe ions to prevent iron oxide precipitation. Experiments and theoretical calculations reveal that the generated Fe ions was mainly present in the form of bis- and tris-PROC-Fe complexes
in the reaction solution. Compared with pristine Fe-Pd NPs, the PROC-modified Fe-Pd NPs had a dechlorination efficiency that was increased 20-fold (pH 9.0). Notably, a normalized rate constant was enhanced
by more than 2 orders of magnitude compared to the previously reported dechlorination systems. The
PROC-modified Fe-Pd NPs showed excellent dechlorination efficiency over a wide pH range (2.3–13.0). |
| author2 |
School of Materials Science and Engineering |
| author_facet |
School of Materials Science and Engineering Liu, Mingyue Huang, Renliang Li, Chuanxi Che, Mingda Su, Rongxin Li, Shuzhou Yu, Jing Qi, Wei He, Zhimin |
| format |
Article |
| author |
Liu, Mingyue Huang, Renliang Li, Chuanxi Che, Mingda Su, Rongxin Li, Shuzhou Yu, Jing Qi, Wei He, Zhimin |
| author_sort |
Liu, Mingyue |
| title |
Continuous rapid dechlorination of p-chlorophenol by Fe-Pd nanoparticles promoted by procyanidin |
| title_short |
Continuous rapid dechlorination of p-chlorophenol by Fe-Pd nanoparticles promoted by procyanidin |
| title_full |
Continuous rapid dechlorination of p-chlorophenol by Fe-Pd nanoparticles promoted by procyanidin |
| title_fullStr |
Continuous rapid dechlorination of p-chlorophenol by Fe-Pd nanoparticles promoted by procyanidin |
| title_full_unstemmed |
Continuous rapid dechlorination of p-chlorophenol by Fe-Pd nanoparticles promoted by procyanidin |
| title_sort |
continuous rapid dechlorination of p-chlorophenol by fe-pd nanoparticles promoted by procyanidin |
| publishDate |
2020 |
| url |
https://hdl.handle.net/10356/144658 |
| _version_ |
1688665303531126784 |