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硫掺杂石墨烯作为MFC阴极性能和生物毒性检测

蓝瑞嵩刘丽华张倩陈博彦洪俊明

化工进展2024，Vol.43Issue(6)：3430-3439,10.

化工进展2024，Vol.43Issue(6)：3430-3439,10.DOI:10.16085/j.issn.1000-6613.2023-0799

硫掺杂石墨烯作为MFC阴极性能和生物毒性检测

Performance and biotoxicity evaluation of sulfur-doped graphene as a cathode for MFC

蓝瑞嵩 ¹刘丽华 ²张倩 ¹陈博彦 ³洪俊明¹

作者信息

1. 华侨大学化工学院,福建厦门 361021||福建省工业废水生化处理工程技术研究中心,福建厦门 361021
2. 福建省厦门环境监测中心站,福建厦门 361102
3. 台湾宜兰大学工学院化工与材料工程学系,台湾宜兰 26047
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摘要

Abstract

Sulfur-doped reduced graphene oxide(S-rGO)materials were prepared by hydrothermal method.The characterization revealed that doping of S atoms led to the formation of structural defects in the rGO,which increased the active site of the material.Electrochemical tests revealed that S-rGO exhibited better oxygen reduction reaction(ORR)performance than rGO.The limited current density of S-rGO was 4.08mA/cm2,which was 17.3%higher than that of rGO(3.48mA/cm2).This indicates that the S atom doping can effectively improve the ORR activity of rGO.S-rGO was mixed with activated carbon(AC)and carbon black(CB)at a mass ratio of 0.1∶0.25∶1 to prepare the cathode catalyst for microbial fuel cells.The results showed that the S-rGO-catalyzed microbial fuel cell reactor could operate for 27h per cycle and generate an output voltage of 0.33V,while the rGO-catalyzed reactor could run for 24h per cycle with an output voltage of 0.30V.The reactor catalyzed by CB could last for 23h per cycle and had an output voltage of 0.26V.Benzalammonium chloride(BAC)was used as a biotoxic substance to test the toxicity sensing performance of the S-rGO-modified microbial fuel cells.The linear fitting results of voltage and BAC concentration revealed that S-rGO had higher sensitivity and stability for toxicity detection(correlation coefficient was 0.996),whereas the correlation coefficient of the traditional Pt/C cathode catalyst was 0.932.All the above results indicates that S-rGO has great potential for application in the field of toxicity detection.

关键词

微生物燃料电池/阴极催化剂/硫掺杂还原氧化石墨烯/毒性检测/苯扎氯铵

Key words

microbial fuel cell/cathode catalyst/sulfur-doped reduced graphene oxide/toxicity detection/benzalchloramine

分类

信息技术与安全科学

引用本文复制引用

蓝瑞嵩,刘丽华,张倩,陈博彦,洪俊明..硫掺杂石墨烯作为MFC阴极性能和生物毒性检测[J].化工进展,2024,43(6):3430-3439,10.

基金项目

福建省科技项目(2022I0030) （2022I0030）

国家自然科学基金(51978291) （51978291）

厦门市科技计划(3502Z20226012). （3502Z20226012）

化工进展

OA北大核心CSTPCD

ISSN：1000-6613

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