Improvement of electron transfer efficiency during denitrification process by Fe-Pd/multi-walled carbon nanotubes: Possessed redox characteristics and secreted endogenous electron mediator

Zeyu Wang; Wangqin Fu; Liyong Hu; Min Zhao; Tianjiao Guo; Dzmitry Hrynsphan; Savitskaya Tatsiana; Jun Chen

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Improvement of electron transfer efficiency during denitrification process by Fe-Pd/multi-walled carbon nanotubes: Possessed redox characteristics and secreted endogenous electron mediator

机译：Fe-Pd /多壁碳纳米管的脱硅过程中电子转移效率的改善：具有氧化还原特性和分泌内源性电子介质

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Nanomaterials which contacts microbial membranes for extracellular electron transfer, could establish a connection with the internal electron transfer chain of microorganisms. This characteristic could be employed to accelerate the denitrification process. In this study, the effect and mechanism of Pd-Fe/multi-walled carbon nanotubes (MWCNTs) on the extracellular electron transport behavior of Alcaligenes sp.TB was studied using electron transfer inhibitors and electrochemical methods. The main conclusions were as follows: the electron transfer site of Pd-Fe/MWCNTs was 266 mV, which was next to cytochrome c; the excellent electron exchange capacity of Pd-Fe/MMWCNTs (AEp = 734 mV) and the secretion of PN (33 mg/L) induced by Pd-Fe/MWCNTs both contributed to the occurrence of DEET process and promoted the electron transfer; the correlation between the electron mediator and the nitrate removal was analyzed were greater than 0.9731.

机译：与微生物电子转移接触微生物膜的纳米材料可以与微生物的内电子转移链建立连接。可以采用这种特性来加速反硝化过程。在该研究中，使用电子转移抑制剂和电化学方法研究了PD-Fe /多壁碳纳米管（MWCNTS）对alcaligenes Sp.TB细胞外电子传输行为的影响和机理。主要结论如下：PD-Fe / MWCNT的电子转移位点为266mV，邻近细胞色素C; PD-Fe / MMWNTS（AEP = 734mV）的优异电子交换能力和PD-Fe / MWCNTS诱导的PN（33mg / L）的分泌既有助于进程，促进电子转移; 分析电子介体与硝酸盐去除之间的相关性大于0.9731。

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来源
《Science of the total environment》 |2021年第10期|146686.1-146686.9|共9页
作者
Zeyu Wang; Wangqin Fu; Liyong Hu; Min Zhao; Tianjiao Guo; Dzmitry Hrynsphan; Savitskaya Tatsiana; Jun Chen;
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作者单位

Interdisciplinary Research Academy Zhejiang Shuren University Hangzhou 310021 PR China;

College of Environment Zhejiang University ofTechnology Hangzhou 310032 PR China;

College of Environment Zhejiang University ofTechnology Hangzhou 310032 PR China;

College of Environment Zhejiang University ofTechnology Hangzhou 310032 PR China;

College of Biological and Environmental Engineering Zhejiang Shuren University Hangzhou 310021 PR China;

Research Institute of Physical and Chemical Problems Belarusian State University Minsk 220030 Belarus;

Research Institute of Physical and Chemical Problems Belarusian State University Minsk 220030 Belarus;

College of Biological and Environmental Engineering Zhejiang Shuren University Hangzhou 310021 PR China;

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正文语种 eng
中图分类
关键词
Nanocomposites; Denitrification; Electrochemistry; Electron transfer; Extracellular polymeric substance;

机译：纳米复合材料;反硝化;电化学;电子转移;细胞外聚合物物质;

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Improvement of electron transfer efficiency during denitrification process by Fe-Pd/multi-walled carbon nanotubes: Possessed redox characteristics and secreted endogenous electron mediator

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